JP2013104499A - Machine device support structure - Google Patents

Machine device support structure Download PDF

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JP2013104499A
JP2013104499A JP2011249526A JP2011249526A JP2013104499A JP 2013104499 A JP2013104499 A JP 2013104499A JP 2011249526 A JP2011249526 A JP 2011249526A JP 2011249526 A JP2011249526 A JP 2011249526A JP 2013104499 A JP2013104499 A JP 2013104499A
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intermediate member
elastic
mechanical device
filling
elastic member
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JP5871573B2 (en
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Kazuhide Mizuno
和英 水野
Hiroki Shimada
裕樹 島田
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Advanced System Co Ltd
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Advanced System Co Ltd
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Abstract

PROBLEM TO BE SOLVED: To provide a machine device support structure that can absorb the vibration of a machine device with a simple structure.SOLUTION: The machine device support structure provided in place of a conventional machine device support structure structured to support a machine device having a lower structure formed with a planar bottom face, includes an intermediate member of predetermined thickness forming an upper face that faces the bottom face of a lower structure; a plate-like elastic member laid on the upper face of the intermediate member so as to abut against the bottom face of the lower structure to support the machine device; and spring/damper type support members for supporting the intermediate member from below with springs and dampers.

Description

本発明は、機械装置を支持する構造である機械装置支持構造に関する。   The present invention relates to a mechanical device support structure that is a structure that supports a mechanical device.

機械装置が各種の用途で用いられる。
一般に、機械装置は、平面状の底面を形成する下部構造を有する。
下部構造の底面は、いわゆる設置面である。
機械装置支持構造が、機械装置を支持する。
機械工作装置は、機械装置の一例である。
鍛造機は、機械工作装置の一例である。
鍛造機は、素材を叩いて塑性変形させて所望の形状を形成するための機械である。
鍛造機は、フレームとアクチエータとハンマーと補機とで構成される。
フレームは、下部構造と上部構造とで構成される。
鍛造機の下部構造は、アンビルと呼称される。通例、鍛造機の下部構造と上部構造とは機械的に結合される。
ハンマーは、フレームに案内されて上下移動可能な部材である。
アクチータは、ハンマーを上下駆動する機械要素である。
例えば、アクチエータは、エアーシリンダである。
鍛造機は、鍛造機支持構造に支持される。
例えば、鍛造機支持構造は、ばねとダンパーとで支持する構造である。
Mechanical devices are used in various applications.
Generally, a mechanical device has a lower structure that forms a planar bottom surface.
The bottom surface of the lower structure is a so-called installation surface.
A mechanical device support structure supports the mechanical device.
A machine tool is an example of a mechanical device.
A forging machine is an example of a machine tool.
A forging machine is a machine for hitting a material and plastically deforming it to form a desired shape.
The forging machine includes a frame, an actuator, a hammer, and auxiliary equipment.
The frame is composed of a lower structure and an upper structure.
The substructure of the forging machine is called an anvil. Typically, the lower structure and the upper structure of the forging machine are mechanically coupled.
The hammer is a member that can be moved up and down while being guided by the frame.
An actuator is a mechanical element that drives a hammer up and down.
For example, the actuator is an air cylinder.
The forging machine is supported by the forging machine support structure.
For example, the forging machine support structure is a structure that is supported by a spring and a damper.

機械装置には、振動が発生する。
機械装置の構造に対応して、大きな振動が発生することもある。
例えば、エアーシリンダにエアーを供給すると、ハンマーが、上下移動し、アンビルに載せた素材をハンマーで叩く。
ハンマーが素材を叩くと、大きな衝撃振動が鍛造機に発生する。
鍛造機支持構造が、鍛造機を支持する。
鍛造機支持構造の構造が適切でないと、鍛造機に不都合が生じる可能性がある。
また、大きな衝撃振動を直接に受けて、鍛造機支持構造を構成するばねが破損しない様にして、鍛造機支持構造を溶接個所にクラックが生じない様にして、鍛造機支持構造の耐久性を維持するのに工夫を要する。
Vibration is generated in the mechanical device.
Large vibrations may occur depending on the structure of the mechanical device.
For example, when air is supplied to the air cylinder, the hammer moves up and down and strikes the material placed on the anvil with the hammer.
When the hammer hits the material, a large impact vibration is generated in the forging machine.
A forging machine support structure supports the forging machine.
If the structure of the forging machine support structure is not appropriate, there may be a problem with the forging machine.
In addition, the forging machine support structure is made durable by receiving large impact vibrations directly so that the springs constituting the forging machine support structure are not damaged, and the forging machine support structure is not cracked at the weld. Ingenuity is required to maintain.

本発明は以上に述べた問題点に鑑み案出されたもので、簡単な構造で機械装置の振動を吸収できる機械装置支持構造を提供しようとする。   The present invention has been devised in view of the above-described problems, and an object of the present invention is to provide a mechanical device support structure that can absorb vibrations of the mechanical device with a simple structure.

上記目的を達成するため、本発明に係る平面状の底面を形成する下部構造を有する機械装置を支持する構造である機械装置支持構造を、下部構造の底面に対面する上面を形成し所定の厚みをもつ中間部材と、下部構造の底面に当たって機械装置を支持する様に前記中間部材の上面に敷かれる板状の弾性部材と、前記中間部材を下方からばねとダンパーとで支持するばね/ダンパ式支持部材と、を備えるものとした。   In order to achieve the above object, a mechanical device supporting structure, which is a structure for supporting a mechanical device having a lower structure forming a flat bottom surface according to the present invention, is formed with a predetermined thickness by forming an upper surface facing the bottom surface of the lower structure. An intermediate member, a plate-like elastic member laid on the upper surface of the intermediate member so as to support the mechanical device by hitting the bottom surface of the lower structure, and a spring / damper type that supports the intermediate member from below with a spring and a damper A support member.

上記本発明の構成により、中間部材は、下部構造の底面に対面する上面を形成し所定の厚みをもつ部材である。弾性部材は、下部構造に当たって機械装置の底面を支持する様に前記中間部材の上面に敷かれる板状の部材である。ばね/ダンパ式支持部材は、前記中間部材を下方からばねとダンパーとで支持する。
その結果、 中間部材の質量と弾性部材の弾性率を調整して機械装置に発生する振動を抑制できる。
With the above-described configuration of the present invention, the intermediate member is a member having a predetermined thickness formed with an upper surface facing the bottom surface of the lower structure. The elastic member is a plate-like member laid on the upper surface of the intermediate member so as to support the bottom surface of the mechanical device when hitting the lower structure. The spring / damper support member supports the intermediate member from below with a spring and a damper.
As a result, the vibration generated in the mechanical device can be suppressed by adjusting the mass of the intermediate member and the elastic modulus of the elastic member.

以下に、本発明の実施形態にかかる機械装置支持構造を説明する。本発明は、以下に記載した実施形態のいずれか、またはそれらの中の二つ以上が組み合わされた態様を含む。   Below, the mechanical apparatus support structure concerning embodiment of this invention is demonstrated. The present invention includes any of the embodiments described below, or a combination of two or more of them.

本発明の実施形態に係る機械装置支持構造は、任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する充填部材を、備え、前記中間部材が前記弾性部材を敷かれる上面をもつ中間部材本体部と下部構造の相対的な上下移動を許し所定距離を越える相対的な水平移動を阻止できる様に上から見て下部構造の底部との間に隙間空間を形成して前記中間部材本体部に設けられるドック部とを有し、前記充填部材が前記隙間空間に充填施行された。
上記実施形態の構成により、充填部材は、任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する部材である。前記中間部材の中間部材本体部は、前記弾性部材を敷かれる上面をもつ。前記中間部材のドック部は、下部構造の相対的な上下移動を許し所定距離を越える相対的な水平移動を阻止できる様に上から見て下部構造の底部との間に隙間空間を形成して前記中間部材本体部に設けられる。前記充填部材が前記隙間空間に充填施行された。
その結果、下部構造に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをできる。
A mechanical device support structure according to an embodiment of the present invention includes a filling member that can be filled in an arbitrary space and solidified in the space while maintaining elasticity after filling is performed, and the intermediate member includes the elastic member. A gap space is formed between the bottom of the lower structure when viewed from the top so that relative vertical movement of the intermediate member main body having the upper surface to be laid and the lower structure can be prevented and relative horizontal movement exceeding a predetermined distance can be prevented. The intermediate member main body portion has a dock portion, and the filling member is filled into the gap space.
According to the configuration of the above embodiment, the filling member is a member that can be filled in an arbitrary space and solidifies in the space while maintaining elasticity after filling. The intermediate member main body portion of the intermediate member has an upper surface on which the elastic member is laid. The dock portion of the intermediate member forms a gap space between the bottom portion of the lower structure when viewed from above so that the lower structure can be relatively vertically moved and the horizontal movement exceeding a predetermined distance can be prevented. Provided in the intermediate member main body. The filling member was filled into the gap space.
As a result, when vibration is generated in the lower structure, no pulling force is generated in the mechanical device support structure, and the force exerted on the mechanical device support structure by vibration due to horizontal movement can be reduced.

本発明の実施形態に係る機械装置支持構造は、前記中間部材である第一中間部材の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である第二中間部材と、前記第一中間部材の底面に当たって機械装置を支持する様に前記第二中間部材の上面に敷かれる板状の他の弾性部材である第二弾性部材と、任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する他の充填部材である第二充填部材と、を備え、前記第二中間部材が前記第二弾性部材を敷かれる上面をもつ第二中間部材本体部と前記第一中間部材の相対的な上下移動を許し所定距離を越える相対的な水平移行を阻止できる様に上から見て前記第一中間部材の底部との間に他の隙間空間である第二隙間空間を形成して前記第二中間部材本体部に設けられる第二ドック部とを有し、前記第二充填部材が前記第二隙間空間に充填施行され、前記ばね/ダンパ支持部材が前記第二中間部材と前記第二弾性部材とを介して前記第一中間部材を下方から支持する。
上記実施形態の構成により、第二中間部材は、前記中間部材である第一中間部材の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である。第二弾性部材は、前記第一中間部材の底面に当たって機械装置を支持する様に前記第二中間部材の上面に敷かれる板状の他の弾性部材である。第二充填部材は、任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する他の充填部材である。前記第二中間部材の第二中間部材本体部は、前記第二弾性部材を敷かれる上面をもつ。前記第二中間部材の第二ドック部は、前記第一中間部材の相対的な上下移動を許し所定距離を越える相対的な水平移行を阻止できる様に上から見て前記第一中間部材の底部との間に他の隙間空間である第二隙間空間を形成して前記第二中間部材本体部に設けられる。前記第二充填部材が前記第二隙間空間に充填施行される。前記ばね/ダンパ支持部材が前記第二中間部材と前記第二弾性部材とを介して前記第一中間部材を下方から支持する。
その結果、下部構造に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをできる。
A mechanical apparatus support structure according to an embodiment of the present invention includes: a second intermediate member that is another intermediate member that has a predetermined thickness and that has an upper surface that faces a bottom surface of the first intermediate member that is the intermediate member; A second elastic member that is another elastic member in the form of a plate placed on the upper surface of the second intermediate member so as to support the mechanical device by hitting the bottom surface of the one intermediate member, and after filling can be performed in any space A second filling member that is another filling member that solidifies in the space while maintaining elasticity, and a second intermediate member main body having an upper surface on which the second intermediate member is laid. The second intermediate space is another gap space between the first intermediate member and the bottom of the first intermediate member so as to allow relative vertical movement of the first intermediate member and prevent relative horizontal shift exceeding a predetermined distance. A gap space is formed and provided in the second intermediate member main body. A second dock portion, the second filling member is filled into the second gap space, and the spring / damper support member is interposed between the second intermediate member and the second elastic member. One intermediate member is supported from below.
By the structure of the said embodiment, a 2nd intermediate member is another intermediate member which forms the upper surface which faces the bottom face of the 1st intermediate member which is the said intermediate member, and has predetermined | prescribed thickness. The second elastic member is another plate-like elastic member laid on the upper surface of the second intermediate member so as to contact the bottom surface of the first intermediate member and support the mechanical device. The second filling member is another filling member that can be filled in an arbitrary space and solidifies in the space while maintaining elasticity after filling. The second intermediate member main body of the second intermediate member has an upper surface on which the second elastic member is laid. The second dock portion of the second intermediate member has a bottom portion of the first intermediate member as viewed from above so as to allow relative vertical movement of the first intermediate member and prevent relative horizontal shift exceeding a predetermined distance. A second gap space which is another gap space is formed between the second intermediate member main body and the second gap member space. The second filling member is filled into the second gap space. The spring / damper support member supports the first intermediate member from below via the second intermediate member and the second elastic member.
As a result, when vibration is generated in the lower structure, no pulling force is generated in the mechanical device support structure, and the force exerted on the mechanical device support structure by vibration due to horizontal movement can be reduced.

本発明の実施形態に係る機械装置支持構造は、Nが2、3・・・のうちのひとつの数であって、MがN+1の数であって、前記中間部材である第一中間部材乃至第N中間部材の各々の底面に各々に対面する上面を各々に形成し所定の厚みを各々にもつ他の中間部材である第二中間部材乃至第M中間部材と、前記第一中間部材乃至前記第N中間部材の各々の底面に当たって機械装置を支持する様に前記第二中間部材乃至第M中間部材の各々の上面に各々に敷かれる板状の他の弾性部材である第二弾性部材乃至第M弾性部材と、任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する他の充填部材である第二充填部材乃至第M充填部材と、を備え、前記第二中間部材乃至前記第M中間部材及び前記第二弾性部材乃至前記第M弾性部材とが、上から順に交互に並ぶ様に積み重ねられ、前記第二中間部材乃至前記第M中間部材が前記第二弾性部材乃至前記第M弾性部材を各々に敷かれる上面を各々にもつ第二中間部材乃至第M中間部材本体部と前記第一中間部材乃至前記第N中間部材の相対的な上下移動を各々に許し所定距離を越える相対的な水平移行を各々に阻止できる様に上から見て前記第一中間部材乃至前記第N中間部材の各々の底部との間に他の隙間空間である第二隙間空間乃至第M隙間空間を各々に形成して第二中間部材本体乃至前記第M中間部材本体部に各々に設けられる第二ドック部乃至第Mドック部とを有し、前記第二充填部材乃至前記第M充填部材が前記第二隙間空間乃至前記第M隙間空間に各々に充填施行され、前記ばね/ダンパ支持部材が前記第二中間部材乃至前記第M中間部材と前記第二弾性部材乃至前記第M弾性部材とを介して前記第一中間部材を下方から支持する。
上記実施形態の構成により、Nが、2、3・・・のうちのひとつの数である。Mが、N+1の数である。第二中間部材乃至第M中間部材は、前記中間部材である第一中間部材乃至第N中間部材の各々の底面に各々に対面する上面を各々に形成し所定の厚みを各々にもつ他の中間部材である。第二弾性部材乃至第M弾性部材は、前記第一中間部材乃至前記第N中間部材の各々の底面に当たって機械装置を支持する様に前記第二中間部材乃至第M中間部材の各々の上面に各々に敷かれる板状の他の弾性部材である。第二充填部材乃至第M充填部材は、任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する他の充填部材である。前記第二中間部材乃至前記第M中間部材及び前記第二弾性部材乃至前記第M弾性部材とが、上から順に交互に並ぶ様に積み重ねられる。前記第二中間部材乃至前記第M中間部材の第二中間部材乃至第M中間部材本体部は、前記第二弾性部材乃至前記第M弾性部材を各々に敷かれる上面を各々にもつ。前記第二中間部材乃至前記第M中間部材の第二ドック部乃至第Mドック部は、前記第一中間部材乃至前記第N中間部材の相対的な上下移動を各々に許し所定距離を越える相対的な水平移行を各々に阻止できる様に上から見て前記第一中間部材乃至前記第N中間部材の各々の底部との間に他の隙間空間である第二隙間空間乃至第M隙間空間を各々に形成して第二中間部材本体乃至前記第M中間部材本体部に各々に設けられる。前記第二充填部材乃至前記第M充填部材が前記第二隙間空間乃至前記第M隙間空間に各々に充填施行される。前記ばね/ダンパ支持部材が前記第二中間部材乃至前記第M中間部材と前記第二弾性部材乃至前記第M弾性部材とを介して前記第一中間部材を下方から支持する。
その結果、下部構造に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをでき、さらに、交互に積み重なった複数の中間部材の質量と複数の弾性部材のばねからなる多段のばね/マス系の振動特性により衝撃振動を吸収する効果を上げることをできる。
In the mechanical device support structure according to the embodiment of the present invention, N is one of 2, 3,..., M is a number of N + 1, and the first intermediate member to the intermediate member are the intermediate members. A second intermediate member to an M-th intermediate member which are other intermediate members each having a predetermined thickness on the bottom surface of each of the N-th intermediate members, and the first intermediate member to the above-mentioned The second elastic member to the second elastic member which are other plate-like elastic members laid on the upper surfaces of the second intermediate member to the M-th intermediate member so as to support the mechanical device by hitting the bottom surface of each of the N-th intermediate members. An M elastic member, and a second filling member to an Mth filling member, which are other filling members that solidify in the space while maintaining elasticity after filling can be performed in any space, Two intermediate members to the Mth intermediate member and the second elastic member to the front The M-th elastic members are stacked so as to be alternately arranged in order from the top, and the second intermediate member to the M-th intermediate member are respectively arranged on the upper surfaces on which the second elastic member to the M-th elastic member are laid. The second intermediate member through the M-th intermediate member main body and the first intermediate member through the N-th intermediate member are allowed to move up and down relative to each other to prevent relative horizontal shift exceeding a predetermined distance. When viewed from above, the second intermediate member body or the second intermediate member body is formed by forming a second gap space or Mth gap space, which is another gap space, between each of the first intermediate member or the Nth intermediate member. A second dock part to an M-th dock part provided in each of the M-th intermediate member main body parts, and the second filling member to the M-th filling member in the second gap space to the M-th gap space. The spring / damper support member is loaded into each The second intermediate member or through said M-th intermediate member and the second elastic member to said first M elastic member for supporting the first intermediate member from below.
According to the configuration of the above embodiment, N is one of 2, 3,. M is a number of N + 1. The second intermediate member to the M-th intermediate member are other intermediate members each having a predetermined thickness on the bottom surface of each of the first intermediate member to the N-th intermediate member, which are the intermediate members. It is a member. The second elastic member to the Mth elastic member are respectively placed on the upper surfaces of the second intermediate member to the Mth intermediate member so as to contact the bottom surfaces of the first intermediate member to the Nth intermediate member and support the mechanical device. It is the other elastic member of plate shape laid on. The second filling member to the Mth filling member are other filling members that can be filled in an arbitrary space and solidify in the space while maintaining elasticity after filling. The second intermediate member to the M-th intermediate member and the second elastic member to the M-th elastic member are stacked so as to be alternately arranged in order from the top. The second intermediate member to the M-th intermediate member main body of the second intermediate member to the M-th intermediate member each have an upper surface on which the second elastic member to the M-th elastic member are laid. The second dock portion to the M-th dock portion of the second intermediate member to the M-th intermediate member allow relative vertical movement of the first intermediate member to the N-th intermediate member, respectively, and are relatively over a predetermined distance. The second gap space to the Mth gap space, which are other gap spaces, between the first intermediate member to the Nth intermediate member as viewed from above so that horizontal transition can be prevented from each other. Formed in the second intermediate member main body to the M-th intermediate member main body. The second filling member to the Mth filling member are filled in the second clearance space to the Mth clearance space, respectively. The spring / damper support member supports the first intermediate member from below via the second intermediate member to the Mth intermediate member and the second elastic member to the Mth elastic member.
As a result, when vibration occurs in the lower structure, no pulling force is generated in the mechanical device support structure, and the force acting on the mechanical device support structure can be reduced by vibration due to horizontal movement. Further, the effect of absorbing impact vibration can be enhanced by the vibration characteristics of a multi-stage spring / mass system comprising a plurality of intermediate member masses and a plurality of elastic member springs.

本発明の実施形態に係る機械装置支持構造は、Nが2、3・・・のうちのひとつの数であって、MがN+1の数であって、前記中間部材である第一中間部材乃至第N中間部材の各々の底面に各々に対面する上面を各々に形成し所定の厚みを各々にもつ他の中間部材である第二中間部材乃至第M中間部材と、前記第一中間部材乃至前記第N中間部材の各々の底面に当たって機械装置を支持する様に前記第二中間部材乃至第M中間部材の各々の上面に各々に敷かれる板状の他の弾性部材である第二弾性部材乃至第M弾性部材と、を備え、前記第二中間部材乃至前記第M中間部材及び前記第二弾性部材乃至前記第M弾性部材とが上から順に交互に並ぶ様に積み重ねられ、前記ばね/ダンパ支持部材が前記第二中間部材乃至前記第M中間部材と前記第二弾性部材乃至前記第M弾性部材とを介して前記第一中間部材を下方から支持する、
上記実施形態の構成により、Nが、2、3・・・のうちのひとつの数である。
Mが、N+1の数である。第二中間部材乃至第M中間部材は、前記中間部材である第一中間部材乃至第N中間部材の各々の底面に各々に対面する上面を各々に形成し所定の厚みを各々にもつ他の中間部材である。第二弾性部材乃至第M弾性部材は、前記第一中間部材乃至前記第N中間部材の各々の底面に当たって機械装置を支持する様に前記第二中間部材乃至第M中間部材の各々の上面に各々に敷かれる板状の他の弾性部材である。前記第二中間部材乃至前記第M中間部材及び前記第二弾性部材乃至前記第M弾性部材とが、上から順に交互に並ぶ様に積み重ねられる。前記ばね/ダンパ支持部材が前記第二中間部材乃至前記第M中間部材と前記第二弾性部材乃至前記第M弾性部材とを介して前記第一中間部材を下方から支持する、
その結果、交互に積み重なった複数の中間部材の質量と複数の弾性部材のばねからなる多段のばね/マス系の振動特性により衝撃振動を吸収する効果を上げることをできる。
In the mechanical device support structure according to the embodiment of the present invention, N is one of 2, 3,..., M is a number of N + 1, and the first intermediate member to the intermediate member are the intermediate members. A second intermediate member to an M-th intermediate member which are other intermediate members each having a predetermined thickness on the bottom surface of each of the N-th intermediate members, and the first intermediate member to the above-mentioned The second elastic member to the second elastic member which are other plate-like elastic members laid on the upper surfaces of the second intermediate member to the M-th intermediate member so as to support the mechanical device by hitting the bottom surface of each of the N-th intermediate members. An elastic member, and the second intermediate member to the M-th intermediate member and the second elastic member to the M-th elastic member are stacked so as to be alternately arranged in order from above, and the spring / damper support member Are the second intermediate member through the M-th intermediate member and the first intermediate member. Elastic member or through said M-th elastic members supporting said first intermediate member from below,
According to the configuration of the above embodiment, N is one of 2, 3,.
M is a number of N + 1. The second intermediate member to the M-th intermediate member are other intermediate members each having a predetermined thickness on the bottom surface of each of the first intermediate member to the N-th intermediate member, which are the intermediate members. It is a member. The second elastic member to the Mth elastic member are respectively placed on the upper surfaces of the second intermediate member to the Mth intermediate member so as to contact the bottom surfaces of the first intermediate member to the Nth intermediate member and support the mechanical device. It is the other elastic member of plate shape laid on. The second intermediate member to the M-th intermediate member and the second elastic member to the M-th elastic member are stacked so as to be alternately arranged in order from the top. The spring / damper support member supports the first intermediate member from below via the second intermediate member to the Mth intermediate member and the second elastic member to the Mth elastic member;
As a result, it is possible to increase the effect of absorbing shock vibration by virtue of the vibration characteristics of a multistage spring / mass system composed of the mass of a plurality of intermediate members stacked alternately and the spring of a plurality of elastic members.

本発明の実施形態に係る機械装置支持構造は、前記中間部材の底面に対面する上面を形成し所定の厚みをもつ部材である他の中間部材である基礎中間部材と、前記中間部材の底面に当たって機械装置を支持する様に前記基礎中間部材の上面に敷かれる板状の他の弾性部材である基礎弾性部材と、前記中間部材の相対的な上下移動を許し所定距離を越える相対的な水平移動を阻止できるずれ止めストッパ機構と、を備え、前記中間部材が前記ずれ止めストッパ機構を設けられる位置に上下に貫通する貫通穴である基礎貫通穴を設けられ、前記ずれ止めストッパ機構が前記基礎貫通穴を貫通して設けられる軸部材と上下方向に貫通する貫通穴であるストッパ貫通穴を設けられ該軸部材に該ストッパ貫通穴を貫通されるストッパ部材と該ストッパ部材を前記中間部材に所定の付勢力で上下方向に沿って押付ける付勢部材とを有し、前記ばね/ダンパ支持部材が前記基礎中間部材と前記基礎弾性部材とを介して記中間部材を下方から支持する。
上記実施形態の構成により基礎中間部材は、前記中間部材の底面に対面する上面を形成し所定の厚みをもつ部材である他の中間部材である。基礎弾性部材は、前記中間部材の底面に当たって機械装置を支持する様に前記基礎中間部材の上面に敷かれる板状の他の弾性部材である。ずれ止めストッパ機構は、前記中間部材の相対的な上下移動を許し所定距離を越える相対的な水平移動を阻止できる。前記中間部材が前記ずれ止めストッパ機構を設けられる位置に上下に貫通する貫通穴である基礎貫通穴を設けられる。前記ずれ止めストッパ機構の軸部材は、前記基礎貫通穴を貫通して設けられる。前記ずれ止めストッパ機構のストッパ部材は、上下方向に貫通する貫通穴であるストッパ貫通穴を設けられ該軸部材に該ストッパ貫通穴を貫通される。前記ずれ止めストッパ機構の付勢部材は、が該ストッパ部材を前記中間部材に所定の付勢力で上下方向に沿って押付ける。前記ばね/ダンパ支持部材が前記基礎中間部材と前記基礎弾性部材とを介して記中間部材を下方から支持する。
その結果、下部構造に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをできる。
The mechanical device support structure according to the embodiment of the present invention is a base intermediate member which is another intermediate member which is a member having a predetermined thickness and which forms an upper surface facing the bottom surface of the intermediate member, and a bottom surface of the intermediate member. The base elastic member, which is another elastic member in the form of a plate placed on the upper surface of the base intermediate member so as to support the mechanical device, and the relative horizontal movement exceeding the predetermined distance while allowing the relative movement of the intermediate member relative to each other. A stopper stopper mechanism that prevents the stopper, and the intermediate member is provided with a base through-hole that is a through-hole penetrating vertically at a position where the stopper stopper mechanism is provided, and the stopper stopper mechanism is A shaft member provided through the hole and a stopper through hole which is a through hole penetrating in the vertical direction are provided, and the stopper member and the stopper portion which are penetrated through the stopper through hole in the shaft member A biasing member that presses the intermediate member along a vertical direction with a predetermined biasing force, and the spring / damper support member moves the intermediate member downward through the base intermediate member and the base elastic member. Support from.
According to the configuration of the above embodiment, the basic intermediate member is another intermediate member that is a member having a predetermined thickness that forms an upper surface facing the bottom surface of the intermediate member. The base elastic member is another plate-like elastic member laid on the upper surface of the base intermediate member so as to support the mechanical device by hitting the bottom surface of the intermediate member. The slip stopper mechanism can allow relative vertical movement of the intermediate member and prevent relative horizontal movement exceeding a predetermined distance. A base through-hole that is a through-hole penetrating vertically is provided at a position where the intermediate member is provided with the displacement stopper mechanism. The shaft member of the stopper stopper mechanism is provided through the basic through hole. The stopper member of the stopper stopper mechanism is provided with a stopper through hole which is a through hole penetrating in the vertical direction, and is penetrated by the shaft member. The biasing member of the stopper stopper mechanism presses the stopper member along the vertical direction with a predetermined biasing force against the intermediate member. The spring / damper support member supports the intermediate member from below via the base intermediate member and the base elastic member.
As a result, when vibration is generated in the lower structure, no pulling force is generated in the mechanical device support structure, and the force exerted on the mechanical device support structure by vibration due to horizontal movement can be reduced.

以上説明したように本発明に係る機械装置支持構造は、その構成により、以下の効果を有する。
機械装置の下部構造を上面に敷かれる前記弾性部材を介して中間部材で支持し、中間部材をばねとダンパーとで支持する様にしたので、中間部材の質量と弾性部材の弾性率を調整して機械装置に発生する振動を抑制できる。
また、機械装置の下部構造を上面に敷いた弾性部材を介して前記中間部材本体部で支持し、中間部材本体部に設けられたドック部と下部構造との隙間空間に弾性のある充填部材を充填し、下部構造の上下移動を許し、下部構造の水平移動を充填部材を介して阻止する様にしたので、下部構造に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをできる。
また、前記第一中間部材を上面に敷いた弾性部材を介して前記第二中間部材本体部で支持し、第二中間部材本体部に設けられたドック部と前記第一中間部材との隙間空間に弾性のある第二充填部材を充填し、前記第一中間部材の上下移動を許し、前記第一中間部材の水平移動を第二充填部材を介して阻止する様にしたので、下部構造に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをできる。
また、前記第一中間部材を上面に敷いた複数の弾性部材を介して積み重ねられた前記第二中間部材本体部乃至前記第N中間部材本体部で支持し、第二中間部材本体部乃至第N中間部材本体部に設けられた各々にドック部と前記第一中間部材乃至第N中間部材との各々の隙間空間に弾性のある第二充填部材乃至第M充填部材を各々に充填し、前記第一中間部材の上下移動を許し、前記第一中間部材の水平移動を第二充填部材を介して阻止する様にしたので、下部構造に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをでき、さらに、交互に積み重なった複数の中間部材の質量と複数の弾性部材のばねからなる多段のばね/マス系の振動特性により衝撃振動を吸収する効果を上げることをできる。
また、前記第一中間部材を上面に敷いた複数の弾性部材を介して積み重ねられた前記第二中間部材本体部乃至前記第N中間部材本体部で支持する様にしたので、下部構造に振動が発生したときに、交互に積み重なった複数の中間部材の質量と複数の弾性部材のばねからなる多段のばね/マス系の振動特性により衝撃振動を吸収する効果を上げることをできる。
また、前記中間部材を上面に敷いた基礎弾性部材を介して前記基礎中間部材で支持し、前記中間部材にずれ止めストッパ機構を設け、前記中間部材に設けた基礎貫通穴に軸部材を貫通させ、ストッパ部材が貫通軸にストッパ貫通穴を貫通され、ストッパ部材を前記中間部材の上面に所定の付勢力で押付ける様にしたので、下部構造に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをできる。
As described above, the mechanical device support structure according to the present invention has the following effects due to its configuration.
Since the lower structure of the mechanical device is supported by the intermediate member via the elastic member laid on the upper surface, and the intermediate member is supported by the spring and the damper, the mass of the intermediate member and the elastic modulus of the elastic member are adjusted. Thus, vibrations generated in the machine device can be suppressed.
In addition, the lower structure of the mechanical device is supported by the intermediate member main body via an elastic member laid on the upper surface, and an elastic filling member is provided in a gap space between the dock portion provided in the intermediate member main body and the lower structure. Filling, allowing the lower structure to move up and down, and preventing the horizontal movement of the lower structure via the filling member, so that when the lower structure vibrates, no pulling force is generated in the machine support structure Further, it is possible to reduce the force that the vibration caused by the horizontal movement acts on the mechanical device support structure.
Further, the first intermediate member is supported by the second intermediate member main body via an elastic member laid on the upper surface, and a gap space between the dock portion provided in the second intermediate member main body and the first intermediate member The first intermediate member is allowed to move up and down, and horizontal movement of the first intermediate member is prevented via the second filling member. When this occurs, no pulling force is generated in the mechanical device support structure, and the force acting on the mechanical device support structure due to vibration due to horizontal movement can be reduced.
The first intermediate member is supported by the second intermediate member main body to the N-th intermediate member main body stacked via a plurality of elastic members laid on the upper surface, and the second intermediate member main-body to N-th An elastic second filling member to M-th filling member is filled in each gap space between the dock portion and each of the first intermediate member to N-th intermediate member in each of the intermediate member main body portions, and the first Since the first intermediate member is allowed to move up and down, and the horizontal movement of the first intermediate member is prevented via the second filling member, when the vibration is generated in the lower structure, the pulling force is applied to the mechanical device support structure. A multistage spring / mass comprising a plurality of intermediate member masses and a plurality of elastic member springs that are alternately generated, can reduce the force acting on the mechanical device support structure due to vibration caused by horizontal movement. Impact vibration due to system vibration characteristics Possible to increase the effect of absorbing.
In addition, since the first intermediate member is supported by the second intermediate member main body to the N-th intermediate member main body stacked via a plurality of elastic members laid on the upper surface, vibration is generated in the lower structure. When generated, the effect of absorbing impact vibration can be increased by the vibration characteristics of a multi-stage spring / mass system composed of the mass of a plurality of intermediate members stacked alternately and the spring of a plurality of elastic members.
Further, the intermediate member is supported by the basic intermediate member via a basic elastic member laid on the upper surface, a stopper mechanism is provided on the intermediate member, and the shaft member is passed through the basic through hole provided in the intermediate member. Since the stopper member is passed through the stopper through hole on the through shaft and the stopper member is pressed against the upper surface of the intermediate member with a predetermined urging force, when the vibration is generated in the lower structure, the mechanical device support structure No pulling force is generated, and the force that the vibration caused by horizontal movement acts on the mechanical device support structure can be reduced.

本発明の第一の実施形態に係る機械装置支持構造の正面図である。It is a front view of the machinery support structure concerning a first embodiment of the present invention. 本発明の第一の実施形態に係る機械装置支持構造の正面断面図である。It is a front sectional view of the machinery support structure concerning a first embodiment of the present invention. 本発明の第一の実施形態に係る機械装置支持構造の平面図である。It is a top view of the machinery support structure concerning a first embodiment of the present invention. 本発明の第一の実施形態に係る機械装置支持構造のA矢視図である。It is an A arrow directional view of the machinery support structure concerning a first embodiment of the present invention. 本発明の第一の実施形態に係る機械装置支持構造のB矢視図である。It is a B arrow directional view of the machinery support structure concerning a first embodiment of the present invention. 本発明の第二の実施形態に係る機械装置支持構造の正面断面図である。It is front sectional drawing of the machine apparatus support structure which concerns on 2nd embodiment of this invention. 本発明の第二の実施形態に係る機械装置支持構造の平面図である。It is a top view of the machinery support structure concerning a second embodiment of the present invention. 本発明の第三の実施形態に係る機械装置支持構造の正面断面図である。It is a front sectional view of the machinery support structure concerning a third embodiment of the present invention. 本発明の第三の実施形態に係る機械装置支持構造の平面図である。It is a top view of the machinery support structure concerning a third embodiment of the present invention. 本発明の第四の実施形態に係る機械装置支持構造の正面図である。It is a front view of the machinery support structure concerning a 4th embodiment of the present invention. 本発明の実施形態に係るずれ止めストッパ機構の構造説明図その1である。It is structure explanatory drawing 1 of the stopper stopper mechanism which concerns on embodiment of this invention. 本発明の実施形態に係るずれ止めストッパ機構の構造説明図その2である。It is structure explanatory drawing 2 of the slip stopper mechanism which concerns on embodiment of this invention.

以下、本発明を実施するための最良の形態を、図面を参照して説明する。   The best mode for carrying out the present invention will be described below with reference to the drawings.

最初に、本発明の第一の実施形態に係る機械装置支持構造を、図を基に、説明する
図1は、本発明の第一の実施形態に係る機械装置支持構造の正面図である。図2は、本発明の第一の実施形態に係る機械装置支持構造の正面断面図である。図3は、本発明の第一の実施形態に係る機械装置支持構造の平面図である。図4は、本発明の第一の実施形態に係る機械装置支持構造のA矢視図である。図5は、本発明の第一の実施形態に係る機械装置支持構造のB矢視図である。
以下では、機械装置が鍛造機である場合を例に、機械装置支持構造を説明する。
First, a mechanical device support structure according to a first embodiment of the present invention will be described based on the drawings. FIG. 1 is a front view of the mechanical device support structure according to the first embodiment of the present invention. FIG. 2 is a front sectional view of the mechanical device support structure according to the first embodiment of the present invention. FIG. 3 is a plan view of the mechanical device support structure according to the first embodiment of the present invention. FIG. 4 is an A arrow view of the mechanical device support structure according to the first embodiment of the present invention. FIG. 5 is a B arrow view of the mechanical device support structure according to the first embodiment of the present invention.
Below, the case where a mechanical apparatus is a forging machine is demonstrated to an example, and a mechanical apparatus support structure is demonstrated.

機械装置支持構造は、機械装置100を支持する構造である。
機械装置支持構造は、中間部材200と弾性部材300とばね/ダンパ式支持部材600とで構成される。
機械装置支持構造は、中間部材200と弾性部材300とばね/ダンパ式支持部材600と充填部材400とで構成されてもよい。
機械装置支持構造は、中間部材200と弾性部材300とばね/ダンパ式支持部材600とカバー700とで構成されてもよい。
機械装置支持構造は、中間部材200と弾性部材300とばね/ダンパ式支持部材600と充填部材400とカバー700とで構成されてもよい。
The mechanical device support structure is a structure that supports the mechanical device 100.
The mechanical device support structure includes an intermediate member 200, an elastic member 300, and a spring / damper support member 600.
The mechanical device support structure may include an intermediate member 200, an elastic member 300, a spring / damper type support member 600, and a filling member 400.
The mechanical device support structure may include an intermediate member 200, an elastic member 300, a spring / damper type support member 600, and a cover 700.
The mechanical device support structure may include an intermediate member 200, an elastic member 300, a spring / damper support member 600, a filling member 400, and a cover 700.

機械装置支持構造は、中間部材200と弾性部材300と基礎中間部材240とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、中間部材200と弾性部材300と基礎中間部材240と基礎弾性部材340とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、中間部材200と弾性部材300と基礎中間部材240と基礎弾性部材340とずれ止めストッパ機構500とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、中間部材200と弾性部材300と基礎中間部材240と基礎弾性部材340とずれ止めストッパ機構500とばね/ダンパ式支持部材600と充填部材400とカバー700とで構成されてもよい。
The mechanical device support structure may include the intermediate member 200, the elastic member 300, the base intermediate member 240, and the spring / damper type support member 600.
The mechanical device support structure may include an intermediate member 200, an elastic member 300, a base intermediate member 240, a base elastic member 340, and a spring / damper type support member 600.
The mechanical device support structure may include an intermediate member 200, an elastic member 300, a base intermediate member 240, a base elastic member 340, a stopper stopper mechanism 500, and a spring / damper type support member 600.
The mechanical device support structure may include the intermediate member 200, the elastic member 300, the base intermediate member 240, the base elastic member 340, the stopper stopper mechanism 500, the spring / damper type support member 600, the filling member 400, and the cover 700. Good.

例えば、機械装置支持構造は、中間部材200と弾性部材300と複数の充填部材400と複数の基礎中間部材240と複数の基礎弾性部材340と複数のずれ止めストッパ機構500と複数のばね/ダンパ式支持部材600とカバー700とで構成される。   For example, the mechanical device support structure includes an intermediate member 200, an elastic member 300, a plurality of filling members 400, a plurality of basic intermediate members 240, a plurality of basic elastic members 340, a plurality of stopper stopper mechanisms 500, and a plurality of spring / damper types. A support member 600 and a cover 700 are included.

機械装置は、平面状の底面を形成する下部構造を有する装置である。
例えば、機械装置100は、フレームとアクチエータ120とハンマー130とで構成される。
フレームは、下部構造110と上部構造140とで構成される。
機械装置が鍛造機である場合、下部構造110をアンビルと呼称する。
下部構造110の底面は、下向きになって平面状の面を形成している。
例えば、下部構造110の底面は、四隅にアールの付いた略矩形の輪郭をもち下向きになって平たい面を形成している。
アクチエータ120は、フレームに支持される機械要素である。
例えば、アクチエータ120は、エアーシリンダである。
ハンマー130は、アクチエータ120に駆動される、
下部構造110に素材を載せ、アクチエータ120がハンマー130を駆動すると、ハンマー130が素材を叩き、素材を変形させることをできる。
The mechanical device is a device having a lower structure that forms a planar bottom surface.
For example, the mechanical device 100 includes a frame, an actuator 120, and a hammer 130.
The frame includes a lower structure 110 and an upper structure 140.
When the mechanical device is a forging machine, the lower structure 110 is referred to as an anvil.
The bottom surface of the lower structure 110 faces downward to form a planar surface.
For example, the bottom surface of the lower structure 110 has a substantially rectangular outline with rounded corners at the four corners and forms a flat surface facing downward.
The actuator 120 is a mechanical element supported by the frame.
For example, the actuator 120 is an air cylinder.
The hammer 130 is driven by the actuator 120.
When the material is placed on the lower structure 110 and the actuator 120 drives the hammer 130, the hammer 130 can hit the material and deform the material.

中間部材200は、下部構造110の底面に対面する上面を形成し、所定の厚みを持つ部材である。
例えば、上から見て、中間部材200は下部構造110の底面の輪郭より大きな輪郭を持つ部材である。
中間部材200は、中間部材本体部201とドック部202とで構成されてもよい。
例えば、中間部材200は、中間部材本体部201と複数のドック部202とで構成されてもよい。
中間部材本体部201は、後述する弾性部材300を敷かれる上面をもつ部分である。
例えば、中間部材本体部201は、上から見て、下部構造100の底面の輪郭より大きな輪郭を持つ板状の部分である。
ドック部202は、下部構造110の相対的な上下移動を許し、所定距離を越える相対的な水平移動を阻止できる様に、上から見て下部構造110の底部との間に隙間空間を形成して中間部材本体部201に設けられる部分である。
例えば、複数のドック部202が、上から見て下部構造の四方への水平移動を阻止できる様に中間部材本体部201に配される。
例えば、上から見て、Lの字状の複数のドック部が、下部構造110の四隅の部分と隙間空間を各々に形成する様に、中間部材本体部201に設けられる。
ドック部202は、中間部材本体部201の上面から上方へ立ち上がる構造であってもよい。
ドック部202は、中間部材本体部201の側面から上方へ立ち上がる構造であってもよい。
中間部材本体部201とドック部202とは、一体構造であってもよい。
中間部材本体部201とドック部202とは、機械的に結合される別体構造であってもよい。
The intermediate member 200 is a member that forms an upper surface facing the bottom surface of the lower structure 110 and has a predetermined thickness.
For example, when viewed from above, the intermediate member 200 is a member having a contour larger than the contour of the bottom surface of the lower structure 110.
The intermediate member 200 may be composed of an intermediate member main body portion 201 and a dock portion 202.
For example, the intermediate member 200 may include an intermediate member main body 201 and a plurality of docks 202.
The intermediate member main body 201 is a portion having an upper surface on which an elastic member 300 described later is laid.
For example, the intermediate member main body 201 is a plate-like portion having a contour larger than the contour of the bottom surface of the lower structure 100 when viewed from above.
The dock part 202 forms a gap space with the bottom part of the lower structure 110 when viewed from above so as to allow relative vertical movement of the lower structure 110 and prevent relative horizontal movement exceeding a predetermined distance. This is a portion provided in the intermediate member main body 201.
For example, the plurality of dock portions 202 are arranged on the intermediate member main body portion 201 so as to prevent horizontal movement of the lower structure in all directions when viewed from above.
For example, when viewed from above, a plurality of L-shaped dock portions are provided in the intermediate member main body 201 so as to form four corner portions of the lower structure 110 and gap spaces, respectively.
The dock part 202 may have a structure that rises upward from the upper surface of the intermediate member main body part 201.
The dock unit 202 may have a structure that rises upward from the side surface of the intermediate member main body 201.
The intermediate member main body 201 and the dock 202 may have an integrated structure.
The intermediate member main body 201 and the dock portion 202 may have a separate structure that is mechanically coupled.

弾性部材300は、下部構造110の底面に当たって、機械装置100を支持する様に中間部材200の上面に敷かれる板状の部材である。
例えば、弾性部材300は、下部構造の底面に当たって機械装置100を支持する様に中間部材200の上面に敷かれる板状の樹脂製またはゴム製の部材である。
The elastic member 300 is a plate-like member laid on the upper surface of the intermediate member 200 so as to hit the bottom surface of the lower structure 110 and support the mechanical device 100.
For example, the elastic member 300 is a plate-like resin or rubber member laid on the upper surface of the intermediate member 200 so as to contact the bottom surface of the lower structure and support the mechanical device 100.

充填部材400は、任意の空間に充填施行でき、充填施行した後で弾性を維持したまま空間の中で固化する部材である。
充填部材400は、隙間空間に充填施行される。
The filling member 400 is a member that can be filled in an arbitrary space and solidifies in the space while maintaining elasticity after filling.
The filling member 400 is filled in the gap space.

基礎中間部材240は、中間部材200の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である。
基礎中間部材240は、ばね/ダンパ式支持部材600の上部構造であってもよい。
基礎中間部材240は、複数の中間部材であってもよい。
複数のばね/ダンパ式支持部材600が、複数の基礎中間部材240を各々に支持する。
The base intermediate member 240 is another intermediate member that forms an upper surface facing the bottom surface of the intermediate member 200 and has a predetermined thickness.
The base intermediate member 240 may be a superstructure of the spring / damper support member 600.
The base intermediate member 240 may be a plurality of intermediate members.
A plurality of spring / damper support members 600 support a plurality of foundation intermediate members 240 on each.

基礎弾性部材340は、中間部材200の底面に当たって機械装置100を支持する様に基礎中間部材240の上面に敷かれる板状の他の弾性部材である。
例えば、基礎弾性部材340は、中間部材200の底面に当たって機械装置100を支持する様に基礎中間部材240の上面に敷かれる板状の樹脂製またはゴム製の他の弾性部材である。
The base elastic member 340 is another plate-like elastic member laid on the upper surface of the base intermediate member 240 so as to support the mechanical device 100 by hitting the bottom surface of the intermediate member 200.
For example, the base elastic member 340 is another elastic member made of a plate-like resin or rubber laid on the upper surface of the base intermediate member 240 so as to support the mechanical device 100 by hitting the bottom surface of the intermediate member 200.

ずれ止めストッパ機構500は、中間部材200の相対的な上下移動を許し所定距離を越える相対的な水平移動を阻止できる機構である。
例えば、ずれ止めストッパ機構500は、基礎中間部材240に対する中間部材200の相対的な上下移動を許し所定距離を越える基礎中間部材240に対する中間部材200の相対的な水平移動を阻止できる機構である。
例えば、ずれ止めストッパ機構500は、中間部材200に対する基礎中間部材240の相対的な上下移動を許し所定距離を越える中間部材200に対する基礎中間部材240の相対的な水平移動を阻止できる機構である。
The slip stopper mechanism 500 is a mechanism that allows relative vertical movement of the intermediate member 200 and prevents relative horizontal movement exceeding a predetermined distance.
For example, the stopper stopper mechanism 500 is a mechanism that allows the intermediate member 200 to move up and down relative to the base intermediate member 240 and prevents the horizontal movement of the intermediate member 200 relative to the base intermediate member 240 exceeding a predetermined distance.
For example, the stopper stopper mechanism 500 is a mechanism that allows the base intermediate member 240 to move up and down relative to the intermediate member 200 and prevents the base intermediate member 240 from moving horizontally relative to the intermediate member 200 exceeding a predetermined distance.

中間部材200が、ずれ止めストッパ機構500を設けられる位置に上下に貫通する貫通穴である基礎貫通穴を設けられる。
ずれ止めストッパ機構500が取り付けられる中間部材200が、ずれ止めストッパ機構を設けられる位置に上下に貫通する貫通穴である基礎貫通穴を設けられる。
基礎中間部材240が、ずれ止めストッパ機構500を設けられる位置に上下に貫通する貫通穴である基礎貫通穴を設けられてもよい。
例えば、基礎中間部材240が、ずれ止めストッパ機構500を設けられる位置に上下に貫通する貫通穴である複数の基礎貫通穴を設けられる。
複数のずれ止めストッパ機構500は、中間部材の四方への水平移動を阻止できる様に、複数の基礎中間部材240に各々に配されてもよい。
例えば、複数のずれ止めストッパ機構500は、中間部材の四方への水平移動を阻止できる様に、中間部材200の四隅に配され、各々に中間部材200の側面に当接する様に、複数の基礎中間部材240に各々に配されてもよい。
The intermediate member 200 is provided with a basic through hole which is a through hole penetrating vertically at a position where the stopper stopper mechanism 500 is provided.
The intermediate member 200 to which the slip stopper mechanism 500 is attached is provided with a basic through hole that is a through hole penetrating vertically at a position where the slip stopper mechanism is provided.
The foundation intermediate member 240 may be provided with a foundation through hole that is a through hole penetrating vertically at a position where the stopper stopper mechanism 500 is provided.
For example, the foundation intermediate member 240 is provided with a plurality of foundation through holes which are through holes penetrating vertically at a position where the stopper stopper mechanism 500 is provided.
The plurality of stopper stopper mechanisms 500 may be disposed on each of the plurality of base intermediate members 240 so that the horizontal movement of the intermediate member in all directions can be prevented.
For example, the plurality of stopper stopper mechanisms 500 are arranged at the four corners of the intermediate member 200 so that the horizontal movement of the intermediate member in four directions can be prevented, and each of the plurality of foundation stopper mechanisms 500 is in contact with the side surface of the intermediate member 200. You may distribute | arrange to each of the intermediate member 240. FIG.

ずれ止めストッパ機構500は、軸部材510とストッパ部材520と付勢部材530とで構成される。
例えば、ずれ止めストッパ機構500は、複数の軸部材510とストッパ部材520と複数の付勢部材530とで構成される。
The slip stopper mechanism 500 includes a shaft member 510, a stopper member 520, and an urging member 530.
For example, the stopper stopper mechanism 500 includes a plurality of shaft members 510, a stopper member 520, and a plurality of urging members 530.

軸部材510は、基礎貫通穴を貫通して設けられる部材である。
基礎貫通穴の穴形状は、軸部材510の外形状より大きい。
軸部材510は、ロッド部材511と第一ロッドエンド512と第二ロッドエンド513とで構成されてもよい。
ロッド部材511は、棒状部材である。
例えば、ロッド部材511は、丸棒である。
第一ロッドエンド512は、ロッド部材511の一方の端部に固定される部材である。
例えば、第一ロッドエンド512は、ロッド部材511の一方の端部にネジ止めされるナットである。
例えば、第一ロッドエンド512は、ロッド部材511の一方の端部に固定されるフランジ状部材である。
第二ロッドエンド513は、ロッド部材511の他方の端部に固定される部材である。
例えば、第二ロッドエンド513は、ロッド部材511の他方の端部にネジ止めされるナットである。
例えば、第二ロッドエンド513は、ロッド部材511の他方の端部に固定されるフランジ状部材である。
The shaft member 510 is a member provided through the basic through hole.
The hole shape of the basic through hole is larger than the outer shape of the shaft member 510.
The shaft member 510 may include a rod member 511, a first rod end 512, and a second rod end 513.
The rod member 511 is a rod-shaped member.
For example, the rod member 511 is a round bar.
The first rod end 512 is a member that is fixed to one end of the rod member 511.
For example, the first rod end 512 is a nut that is screwed to one end of the rod member 511.
For example, the first rod end 512 is a flange-shaped member that is fixed to one end of the rod member 511.
The second rod end 513 is a member fixed to the other end of the rod member 511.
For example, the second rod end 513 is a nut that is screwed to the other end of the rod member 511.
For example, the second rod end 513 is a flange-like member that is fixed to the other end of the rod member 511.

ストッパ部材520は、上下方向に貫通する貫通穴であるストッパ貫通穴を設けられ軸部材にストッパ貫通穴を貫通される部材である。
例えば、ストッパ部材520は、上下方向に貫通する貫通穴である複数のストッパ貫通穴を設けられ複数の軸部材に複数のストッパ貫通穴を各々に貫通される部材である。
ストッパ貫通穴の穴形状は、ロッド部材511の外形状より大きい。
例えば、ストッパ貫通穴が円形であり、ロッド部材511が丸棒であるときに、ストッパ貫通穴の内直径が、ロッド部材511の外直径より大きい。
ストッパ部材520の側面が、取り付けられた中間部材200に重なる他の中間部材200の側面に対面する。
The stopper member 520 is a member that is provided with a stopper through hole that is a through hole penetrating in the vertical direction, and is penetrated by the shaft member through the stopper through hole.
For example, the stopper member 520 is a member provided with a plurality of stopper through-holes that are through-holes penetrating in the vertical direction and penetrated through the plurality of stopper through-holes through a plurality of shaft members.
The hole shape of the stopper through hole is larger than the outer shape of the rod member 511.
For example, when the stopper through hole is circular and the rod member 511 is a round bar, the inner diameter of the stopper through hole is larger than the outer diameter of the rod member 511.
The side surface of the stopper member 520 faces the side surface of another intermediate member 200 that overlaps the attached intermediate member 200.

付勢部材530は、ストッパ部材520を中間部材200に所定の付勢力で上下方向に沿って押付ける部材である。
付勢部材530は、つるまきバネであってもよい。
付勢部材530は、さらバネであってもよい。
例えば、付勢部材530は、第一付勢部材531と第二付勢部材532とで構成される。第一付勢部材531は、ロッド部材511に案内され、第一ロッドエンド512とストッパ部材520とに挟まれる。第二付勢部材532は、ロッド部材511に案内され、第二ロッドエンド513と中間部材200とに挟まれる。
The biasing member 530 is a member that presses the stopper member 520 against the intermediate member 200 along a vertical direction with a predetermined biasing force.
The biasing member 530 may be a helical spring.
The biasing member 530 may be a spring spring.
For example, the urging member 530 includes a first urging member 531 and a second urging member 532. The first biasing member 531 is guided by the rod member 511 and is sandwiched between the first rod end 512 and the stopper member 520. The second urging member 532 is guided by the rod member 511 and is sandwiched between the second rod end 513 and the intermediate member 200.

ばね/ダンパ式支持部材600は、中間部材200を下方からばねとダンパーとで支持する部材である。
例えば、ばね/ダンパ式支持部材600は、中間部材200を基礎中間部材240を介して下方からばねとダンパーとで支持する部材である。
ばね/ダンパ式支持部材600は、ばね610とダンパー620とで構成される。
ばね610は、基礎中間部材240を直接に支持して、中間部材200と弾性部材300とを介して機械装置を支持する弾性要素である。
ダンパー620は、基礎中間部材240を直接に支持して、中間部材200と弾性部材300とを介して機械装置を支持する粘性要素である。
The spring / damper support member 600 is a member that supports the intermediate member 200 from below with a spring and a damper.
For example, the spring / damper support member 600 is a member that supports the intermediate member 200 from below with a spring and a damper via the base intermediate member 240.
The spring / damper support member 600 includes a spring 610 and a damper 620.
The spring 610 is an elastic element that directly supports the base intermediate member 240 and supports the mechanical device via the intermediate member 200 and the elastic member 300.
The damper 620 is a viscous element that directly supports the base intermediate member 240 and supports the mechanical device via the intermediate member 200 and the elastic member 300.

カバー700は、中間部材200と基礎との隙間を覆う布部材である。
例えば、カバー700は耐熱シート製である。
The cover 700 is a cloth member that covers the gap between the intermediate member 200 and the foundation.
For example, the cover 700 is made of a heat resistant sheet.

次に、本発明の第二の実施形態にかかる機械装置支持構造を、図を基に、説明する。
図6は、本発明の第二の実施形態に係る機械装置支持構造の正面断面図である。図7は、本発明の第二の実施形態に係る機械装置支持構造の平面図である。
Next, a mechanical device support structure according to a second embodiment of the present invention will be described with reference to the drawings.
FIG. 6 is a front cross-sectional view of the mechanical device support structure according to the second embodiment of the present invention. FIG. 7 is a plan view of the mechanical device support structure according to the second embodiment of the present invention.

機械装置支持構造は、複数の中間部材200と複数の弾性部材300と基礎中間部材240とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、複数の中間部材200と複数の弾性部材300と基礎中間部材240と基礎弾性部材340とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、複数の中間部材200と複数の弾性部材300と複数の充填部材400と基礎中間部材240と基礎弾性部材340とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、3つの中間部材200と3つの弾性部材300と基礎中間部材240と基礎弾性部材340とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、3つの中間部材200と3つの弾性部材300と3つの充填部材400と基礎中間部材240と基礎弾性部材340とばね/ダンパ式支持部材600とで構成されてもよい。
The mechanical device support structure may include a plurality of intermediate members 200, a plurality of elastic members 300, a base intermediate member 240, and a spring / damper type support member 600.
The mechanical device support structure may include a plurality of intermediate members 200, a plurality of elastic members 300, a base intermediate member 240, a base elastic member 340, and a spring / damper support member 600.
The mechanical device support structure may include a plurality of intermediate members 200, a plurality of elastic members 300, a plurality of filling members 400, a base intermediate member 240, a base elastic member 340, and a spring / damper type support member 600.
The mechanical device support structure may include three intermediate members 200, three elastic members 300, a basic intermediate member 240, a basic elastic member 340, and a spring / damper type support member 600.
The mechanical device support structure may include three intermediate members 200, three elastic members 300, three filling members 400, a basic intermediate member 240, a basic elastic member 340, and a spring / damper type support member 600.

例えば、機械装置支持構造は、第一中間部材210と第一弾性部材310と複数の第一充填部材410と第二中間部材220と第二弾性部材320と複数の第二充填部材420と第三中間部材230と第三弾性部材330と複数の第三充填部材440と複数の基礎中間部材240と複数の基礎弾性部材340と複数のばね/ダンパ式支持部材600とカバー700とで構成される。   For example, the mechanical device support structure includes a first intermediate member 210, a first elastic member 310, a plurality of first filling members 410, a second intermediate member 220, a second elastic member 320, a plurality of second filling members 420, and a third. The intermediate member 230, the third elastic member 330, the plurality of third filling members 440, the plurality of base intermediate members 240, the plurality of base elastic members 340, the plurality of spring / damper type support members 600, and the cover 700.

機械装置の構造は、第一の実施形態にかかる機械装置支持構造のものと同じなので、説明を省略する。   Since the structure of the machine device is the same as that of the machine device support structure according to the first embodiment, the description thereof is omitted.

第一中間部材210と第一弾性部材310と第一充填部材410の構造は、第一の実施形態にかかる機械装置の中間部材200と弾性部材300と充填部材400の構造と同じなので、その説明を省略する。   Since the structure of the first intermediate member 210, the first elastic member 310, and the first filling member 410 is the same as the structure of the intermediate member 200, the elastic member 300, and the filling member 400 of the mechanical device according to the first embodiment, the description thereof is omitted. Is omitted.

第二中間部材220は、中間部材200の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である。
例えば、第二中間部材220は、第一中間部材210の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である。
第二中間部材220は、第二中間部材本体部221と第二ドック部222とで構成されてもよい。
例えば、第二中間部材220は、第二中間部材本体部221と複数の第二ドック部222とで構成される。
第二中間部材本体部221は、後述する第二弾性部材320を敷かれる上面をもつ部分である。
例えば、第二中間部材本体部221は、上から見て、第一中間部材本体部211の底面の輪郭とほぼ同等の輪郭を持つ板状の部分である。
第二ドック部222は、第一中間部材210の相対的な上下移動を許し、所定距離を越える相対的な水平移動を阻止できる様に、上から見て第一中間部材210の底部との間に第二隙間空間を形成して第二中間部材本体部221に設けられる部分である。
複数の第二ドック部222が、上から見て第一中間部材210の四方への水平移動を阻止できる様に第二中間部材本体部221に配される。
第二ドック部222は、第二中間部材本体部221の側面から上方へ立ち上がる構造であってもよい。
第二中間部材本体部221と第二ドック部222とは、一体構造であってもよい。
第二中間部材本体部221と第二ドック部222とは、機械的に結合される別体構造であってもよい。
The second intermediate member 220 is another intermediate member that forms an upper surface facing the bottom surface of the intermediate member 200 and has a predetermined thickness.
For example, the second intermediate member 220 is another intermediate member that forms a top surface facing the bottom surface of the first intermediate member 210 and has a predetermined thickness.
The second intermediate member 220 may be composed of a second intermediate member main body portion 221 and a second dock portion 222.
For example, the second intermediate member 220 includes a second intermediate member main body portion 221 and a plurality of second dock portions 222.
The 2nd intermediate member main-body part 221 is a part with the upper surface on which the 2nd elastic member 320 mentioned later is spread | laid.
For example, the second intermediate member main body portion 221 is a plate-like portion having an outline substantially equivalent to the outline of the bottom surface of the first intermediate member main body portion 211 as viewed from above.
The second dock part 222 allows a relative vertical movement of the first intermediate member 210 and prevents a relative horizontal movement exceeding a predetermined distance from the bottom of the first intermediate member 210 when viewed from above. The second gap space is formed in the second intermediate member main body 221.
The plurality of second dock portions 222 are arranged on the second intermediate member main body portion 221 so as to prevent horizontal movement of the first intermediate member 210 in four directions when viewed from above.
The second dock part 222 may have a structure that rises upward from the side surface of the second intermediate member main body part 221.
The second intermediate member main body portion 221 and the second dock portion 222 may have an integral structure.
The second intermediate member main body portion 221 and the second dock portion 222 may have a separate structure that is mechanically coupled.

第二弾性部材320は、第一中間部材210の底面に当たって機械装置100を支持する様に第二中間部材220の上面に敷かれる板状の部材である。
例えば、第二弾性部材320は、第一中間部材210の底面に当たって機械装置を支持する様に第二中間部材220の上面に敷かれる板状の樹脂製またはゴム製の部材である。
The second elastic member 320 is a plate-like member laid on the upper surface of the second intermediate member 220 so as to contact the bottom surface of the first intermediate member 210 and support the mechanical device 100.
For example, the second elastic member 320 is a plate-like resin or rubber member laid on the upper surface of the second intermediate member 220 so as to contact the bottom surface of the first intermediate member 210 and support the mechanical device.

第二充填部材420は、任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する部材である。
第二充填部材420は、第二隙間空間に充填施行される。
The second filling member 420 is a member that can be filled in an arbitrary space and solidifies in the space while maintaining elasticity after filling.
The second filling member 420 is filled in the second gap space.

第三中間部材230は、中間部材200の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である。
例えば、第三中間部材230は、第二中間部材220の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である。
第三中間部材230は、第三中間部材本体部231と第三ドック部232とで構成されてもよい。
また、第三中間部材230は、第三中間部材本体部231と第三ドック部232と基礎ドック部233とで構成されてもよい。
例えば、第三中間部材230は、第三中間部材本体部231と複数の第三ドック部232と複数の基礎ドック部233とで構成される。
第三中間部材本体部231は、後述する第三弾性部材330を敷かれる上面をもつ部分である。
例えば、第三中間部材本体部231は、上から見て、第二中間部材本体部221の底面の輪郭とほぼ同等の輪郭を持つ板状の部分である。
第三ドック部232は、第二中間部材220の相対的な上下移動を許し、所定距離を越える相対的な水平移動を阻止できる様に、上から見て第二中間部材220の底部との間に第三隙間空間を形成して第三中間部材本体部231に設けられる部分である。
第三中間部材本体部231と第三ドック部の構造的特等は、第二中間部材220のものと同じなので、説明を省略する。
基礎ドック部233は、後述する基礎中間部材240に水平方向に向いて当たる様に、第三中間部材本体部231に設けられる部分である。
複数の基礎ドック部233は、第三中間部材の四方への水平移動を阻止する様に、第三中間部材本体部231に各々に設けられる。
The third intermediate member 230 is another intermediate member that forms an upper surface facing the bottom surface of the intermediate member 200 and has a predetermined thickness.
For example, the third intermediate member 230 is another intermediate member that has an upper surface that faces the bottom surface of the second intermediate member 220 and has a predetermined thickness.
The third intermediate member 230 may be composed of a third intermediate member main body portion 231 and a third dock portion 232.
Further, the third intermediate member 230 may include a third intermediate member main body portion 231, a third dock portion 232, and a basic dock portion 233.
For example, the third intermediate member 230 includes a third intermediate member main body portion 231, a plurality of third dock portions 232, and a plurality of basic dock portions 233.
The 3rd intermediate member main-body part 231 is a part with the upper surface on which the 3rd elastic member 330 mentioned later is spread | laid.
For example, the third intermediate member main body 231 is a plate-like portion having an outline substantially the same as the outline of the bottom surface of the second intermediate member main body 221 when viewed from above.
The third dock part 232 allows a relative vertical movement of the second intermediate member 220 and prevents a relative horizontal movement exceeding a predetermined distance from the bottom of the second intermediate member 220 when viewed from above. This is a portion provided in the third intermediate member main body 231 by forming a third gap space in the first intermediate member main body 231.
Since the structural features of the third intermediate member main body 231 and the third dock portion are the same as those of the second intermediate member 220, description thereof will be omitted.
The foundation dock part 233 is a part provided in the third intermediate member main body part 231 so as to contact a foundation intermediate member 240 described later in the horizontal direction.
The plurality of basic dock portions 233 are provided on each of the third intermediate member main body portions 231 so as to prevent horizontal movement of the third intermediate member in all directions.

第三弾性部材330は、第二中間部材220の底面に当たって機械装置100を支持する様に第三中間部材230の上面に敷かれる板状の部材である。
例えば、第三弾性部材330は、第二中間部材220の底面に当たって機械装置を支持する様に第三中間部材230の上面に敷かれる板状の樹脂製またはゴム製の部材である。
The third elastic member 330 is a plate-like member laid on the upper surface of the third intermediate member 230 so as to contact the bottom surface of the second intermediate member 220 and support the mechanical device 100.
For example, the third elastic member 330 is a plate-like resin or rubber member laid on the upper surface of the third intermediate member 230 so as to hit the bottom surface of the second intermediate member 220 and support the mechanical device.

第三充填部材430は、任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する部材である。
第三充填部材430は、第三隙間空間に充填施行される。
The third filling member 430 is a member that can be filled in an arbitrary space and solidifies in the space while maintaining elasticity after filling.
The third filling member 430 is filled in the third gap space.

基礎中間部材240は、中間部材200の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である。
基礎中間部材240は、ばね/ダンパ式支持部材600の上部構造であってもよい。
基礎中間部材240は、複数の中間部材であってもよい。
複数のばね/ダンパ式支持部材600が、複数の基礎中間部材240を各々に支持する。
The base intermediate member 240 is another intermediate member that forms an upper surface facing the bottom surface of the intermediate member 200 and has a predetermined thickness.
The base intermediate member 240 may be a superstructure of the spring / damper support member 600.
The base intermediate member 240 may be a plurality of intermediate members.
A plurality of spring / damper support members 600 support a plurality of foundation intermediate members 240 on each.

基礎弾性部材340は、中間部材200の底面に当たって機械装置100を支持する様に基礎中間部材240の上面に敷かれる板状の他の弾性部材である。
例えば、基礎弾性部材340は、中間部材200の底面に当たって機械装置100を支持する様に基礎中間部材240の上面に敷かれる板状の樹脂製またはゴム製の他の弾性部材である。
The base elastic member 340 is another plate-like elastic member laid on the upper surface of the base intermediate member 240 so as to support the mechanical device 100 by hitting the bottom surface of the intermediate member 200.
For example, the base elastic member 340 is another elastic member made of a plate-like resin or rubber laid on the upper surface of the base intermediate member 240 so as to support the mechanical device 100 by hitting the bottom surface of the intermediate member 200.

ばね/ダンパ式支持部材600は、中間部材200を下方からばねとダンパーとで支持する部材である。
例えば、ばね/ダンパ式支持部材600は、中間部材200を基礎中間部材240を介して下方からばねとダンパーとで支持する部材である。
ばね/ダンパ式支持部材600は、ばね610とダンパー620とで構成される。
ばね610は、基礎中間部材240を直接に支持して、中間部材200と弾性部材300とを介して機械装置を支持する弾性要素である。
ダンパー620は、基礎中間部材240を直接に支持して、中間部材200と弾性部材300とを介して機械装置を支持する粘性要素である。
The spring / damper support member 600 is a member that supports the intermediate member 200 from below with a spring and a damper.
For example, the spring / damper support member 600 is a member that supports the intermediate member 200 from below with a spring and a damper via the base intermediate member 240.
The spring / damper support member 600 includes a spring 610 and a damper 620.
The spring 610 is an elastic element that directly supports the base intermediate member 240 and supports the mechanical device via the intermediate member 200 and the elastic member 300.
The damper 620 is a viscous element that directly supports the base intermediate member 240 and supports the mechanical device via the intermediate member 200 and the elastic member 300.

カバー700は、中間部材200と基礎との隙間を覆う布部材である。   The cover 700 is a cloth member that covers the gap between the intermediate member 200 and the foundation.

次に、本発明の第三の実施形態にかかる機械装置支持構造を、図を基に、説明する。
図8は、本発明の第三の実施形態に係る機械装置支持構造の正面断面図である。図9は、本発明の第三の実施形態に係る機械装置支持構造の平面図である。
Next, the mechanical apparatus support structure concerning 3rd embodiment of this invention is demonstrated based on figures.
FIG. 8 is a front cross-sectional view of the mechanical device support structure according to the third embodiment of the present invention. FIG. 9 is a plan view of the mechanical device support structure according to the third embodiment of the present invention.

機械装置支持構造は、複数の中間部材200と複数の弾性部材300と基礎中間部材240とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、複数の中間部材200と複数の弾性部材300と基礎中間部材240と基礎弾性部材340とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、複数の中間部材200と複数の弾性部材300と複数の充填部材400と基礎中間部材240と基礎弾性部材340とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、複数の中間部材200と複数の弾性部材300と複数の充填部材400と基礎中間部材240と基礎弾性部材340とずれ止めストッパ機構500とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、2つの中間部材200と2つの弾性部材300と基礎中間部材240と基礎弾性部材340とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、2つの中間部材200と2つの弾性部材300と2つの充填部材400と基礎中間部材240と基礎弾性部材340とばね/ダンパ式支持部材600とで構成されてもよい。
The mechanical device support structure may include a plurality of intermediate members 200, a plurality of elastic members 300, a base intermediate member 240, and a spring / damper type support member 600.
The mechanical device support structure may include a plurality of intermediate members 200, a plurality of elastic members 300, a base intermediate member 240, a base elastic member 340, and a spring / damper support member 600.
The mechanical device support structure may include a plurality of intermediate members 200, a plurality of elastic members 300, a plurality of filling members 400, a base intermediate member 240, a base elastic member 340, and a spring / damper type support member 600.
The mechanical device support structure includes a plurality of intermediate members 200, a plurality of elastic members 300, a plurality of filling members 400, a base intermediate member 240, a base elastic member 340, a stopper stopper mechanism 500, and a spring / damper type support member 600. May be.
The mechanical device support structure may include two intermediate members 200, two elastic members 300, a basic intermediate member 240, a basic elastic member 340, and a spring / damper type support member 600.
The mechanical device support structure may include two intermediate members 200, two elastic members 300, two filling members 400, a basic intermediate member 240, a basic elastic member 340, and a spring / damper type support member 600.

例えば、機械装置支持構造は、第一中間部材210と第一弾性部材310と複数の第一充填部材410と第二中間部材220と第二弾性部材320と複数の第二充填部材420と複数の基礎中間部材240と複数の基礎弾性部材340と複数のずれ止めストッパ機構500と複数のばね/ダンパ式支持部材600とカバー700とで構成される。   For example, the mechanical device support structure includes a first intermediate member 210, a first elastic member 310, a plurality of first filling members 410, a second intermediate member 220, a second elastic member 320, a plurality of second filling members 420, and a plurality of It comprises a base intermediate member 240, a plurality of base elastic members 340, a plurality of slip stopper mechanisms 500, a plurality of spring / damper type support members 600, and a cover 700.

機械装置100の構造は、第一の実施形態にかかる機械装置支持構造のものと同じなので、説明を省略する。   Since the structure of the mechanical device 100 is the same as that of the mechanical device support structure according to the first embodiment, the description thereof is omitted.

第一中間部材210と第一弾性部材310と第一充填部材410の構造は、第一の実施形態にかかる機械装置の中間部材200と弾性部材300と充填部材400の構造と同じなので、その説明を省略する。   Since the structure of the first intermediate member 210, the first elastic member 310, and the first filling member 410 is the same as the structure of the intermediate member 200, the elastic member 300, and the filling member 400 of the mechanical device according to the first embodiment, the description thereof is omitted. Is omitted.

第二中間部材220は、中間部材200の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である。
例えば、第二中間部材220は、第一中間部材210の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である。
第二中間部材220は、第二中間部材本体部221と第二ドック部222とで構成されてもよい。
例えば、第二中間部材220は、第二中間部材本体部221と複数の第二ドック部222とで構成されてもよい。
第二中間部材本体部221は、後述する第二弾性部材320を敷かれる上面をもつ部分である。
例えば、第二中間部材本体部221は、上から見て、第一中間部材本体部211の底面の輪郭より大きな輪郭を持つ板状の部分である。
第二ドック部222は、第一中間部材210の相対的な上下移動を許し、所定距離を越える相対的な水平移動を阻止できる様に、上から見て第一中間部材210の底部との間に第二隙間空間を形成して第二中間部材本体部221に設けられる部分である。
複数の第二ドック部222が、上から見て第一中間部材210の四方への水平移動を阻止できる様に第二中間部材本体部221に配される。
第二ドック部222は、第二中間部材本体部221の上面から上方へ立ち上がる構造であってもよい。
第二ドック部222は、第二中間部材本体部221の側面から上方へ立ち上がる構造であってもよい。
第二中間部材本体部221と第二ドック部222とは、一体構造であってもよい。
第二中間部材本体部221と第二ドック部222とは、機械的に結合される別体構造であってもよい。
The second intermediate member 220 is another intermediate member that forms an upper surface facing the bottom surface of the intermediate member 200 and has a predetermined thickness.
For example, the second intermediate member 220 is another intermediate member that forms a top surface facing the bottom surface of the first intermediate member 210 and has a predetermined thickness.
The second intermediate member 220 may be composed of a second intermediate member main body portion 221 and a second dock portion 222.
For example, the second intermediate member 220 may be composed of a second intermediate member main body portion 221 and a plurality of second dock portions 222.
The 2nd intermediate member main-body part 221 is a part with the upper surface on which the 2nd elastic member 320 mentioned later is spread | laid.
For example, the second intermediate member main body 221 is a plate-like portion having a contour larger than the contour of the bottom surface of the first intermediate member main body 211 as viewed from above.
The second dock part 222 allows a relative vertical movement of the first intermediate member 210 and prevents a relative horizontal movement exceeding a predetermined distance from the bottom of the first intermediate member 210 when viewed from above. The second gap space is formed in the second intermediate member main body 221.
The plurality of second dock portions 222 are arranged on the second intermediate member main body portion 221 so as to prevent horizontal movement of the first intermediate member 210 in four directions when viewed from above.
The second dock part 222 may have a structure that rises upward from the upper surface of the second intermediate member main body part 221.
The second dock part 222 may have a structure that rises upward from the side surface of the second intermediate member main body part 221.
The second intermediate member main body portion 221 and the second dock portion 222 may have an integral structure.
The second intermediate member main body portion 221 and the second dock portion 222 may have a separate structure that is mechanically coupled.

第二弾性部材320は、第一中間部材210の底面に当たって機械装置100を支持する様に第二中間部材220の上面に敷かれる板状の部材である。
例えば、第二弾性部材320は、第一中間部材210の底面に当たって機械装置を支持する様に第二中間部材220の上面に敷かれる板状の樹脂製またはゴム製の部材である。
The second elastic member 320 is a plate-like member laid on the upper surface of the second intermediate member 220 so as to contact the bottom surface of the first intermediate member 210 and support the mechanical device 100.
For example, the second elastic member 320 is a plate-like resin or rubber member laid on the upper surface of the second intermediate member 220 so as to contact the bottom surface of the first intermediate member 210 and support the mechanical device.

第二充填部材420は、任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する部材である。
第二充填部材420は、第二隙間空間に充填施行される。
The second filling member 420 is a member that can be filled in an arbitrary space and solidifies in the space while maintaining elasticity after filling.
The second filling member 420 is filled in the second gap space.

基礎中間部材240は、第二中間部材220の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である。
基礎中間部材240は、ばね/ダンパ式支持部材600の上部構造であってもよい。
基礎中間部材240は、複数の中間部材であってもよい。
複数のばね/ダンパ式支持部材600が、複数の基礎中間部材240を各々に支持する。
The base intermediate member 240 is another intermediate member that forms an upper surface facing the bottom surface of the second intermediate member 220 and has a predetermined thickness.
The base intermediate member 240 may be a superstructure of the spring / damper support member 600.
The base intermediate member 240 may be a plurality of intermediate members.
A plurality of spring / damper support members 600 support a plurality of foundation intermediate members 240 on each.

基礎弾性部材340は、第二中間部材220の底面に当たって機械装置100を支持する様に基礎中間部材240の上面に敷かれる板状の他の弾性部材である。
例えば、基礎弾性部材340は、第二中間部材220の底面に当たって機械装置100を支持する様に基礎中間部材240の上面に敷かれる板状の樹脂製またはゴム製の他の弾性部材である。
The base elastic member 340 is another plate-like elastic member laid on the upper surface of the base intermediate member 240 so as to contact the bottom surface of the second intermediate member 220 and support the mechanical device 100.
For example, the base elastic member 340 is another elastic member made of a plate-like resin or rubber laid on the upper surface of the base intermediate member 240 so as to contact the bottom surface of the second intermediate member 220 and support the mechanical device 100.

ずれ止めストッパ機構500は、第二中間部材220の相対的な上下移動を許し所定距離を越える相対的な水平移動を阻止できる機構である。
例えば、ずれ止めストッパ機構500は、基礎中間部材240に対する第二中間部材220の相対的な上下移動を許し所定距離を越える基礎中間部材240に対する第二中間部材220の相対的な水平移動を阻止できる機構である。
例えば、ずれ止めストッパ機構500は、第二中間部材220に対する基礎中間部材240の相対的な上下移動を許し所定距離を越える第二中間部材220に対する基礎中間部材240の相対的な水平移動を阻止できる機構である。
The slip stopper mechanism 500 is a mechanism that allows relative vertical movement of the second intermediate member 220 and prevents relative horizontal movement exceeding a predetermined distance.
For example, the stopper stopper mechanism 500 can allow the second intermediate member 220 to move up and down relative to the base intermediate member 240 and prevent the horizontal movement of the second intermediate member 220 relative to the base intermediate member 240 exceeding a predetermined distance. Mechanism.
For example, the stopper stopper mechanism 500 can allow the base intermediate member 240 to move up and down relative to the second intermediate member 220 and prevent the base intermediate member 240 from moving horizontally relative to the second intermediate member 220 beyond a predetermined distance. Mechanism.

中間部材200が、ずれ止めストッパ機構500を設けられる位置に上下に貫通する貫通穴である基礎貫通穴を設けられる。
ずれ止めストッパ機構500が取り付けられる中間部材200が、ずれ止めストッパ機構を設けられる位置に上下に貫通する貫通穴である基礎貫通穴を設けられる。
例えば、基礎中間部材240が、ずれ止めストッパ機構500を設けられる位置に上下に貫通する貫通穴である基礎貫通穴を設けられる。
例えば、ずれ止めストッパ機構500が、中間部材の四方への水平移動を阻止できる様に、基礎中間部材240に配される。
The intermediate member 200 is provided with a basic through hole which is a through hole penetrating vertically at a position where the stopper stopper mechanism 500 is provided.
The intermediate member 200 to which the slip stopper mechanism 500 is attached is provided with a basic through hole that is a through hole penetrating vertically at a position where the slip stopper mechanism is provided.
For example, the foundation intermediate member 240 is provided with a foundation through hole which is a through hole penetrating vertically at a position where the stopper stopper mechanism 500 is provided.
For example, the stopper stopper mechanism 500 is disposed on the base intermediate member 240 so that the horizontal movement of the intermediate member in all directions can be prevented.

ずれ止めストッパ機構500の構造は、第一の実施形態にかかる機械装置支持構造のものと同じなので、その説明を省略する。   Since the structure of the stopper stopper mechanism 500 is the same as that of the mechanical device support structure according to the first embodiment, the description thereof is omitted.

ばね/ダンパ式支持部材600は、中間部材200を下方からばねとダンパーとで支持する部材である。
例えば、ばね/ダンパ式支持部材600は、中間部材200を基礎中間部材240を介して下方からばねとダンパーとで支持する部材である。
ばね/ダンパ式支持部材600は、ばね610とダンパー620とで構成される。
ばね610は、基礎中間部材240を直接に支持して、中間部材200と弾性部材300とを介して機械装置を支持する弾性要素である。
ダンパー620は、基礎中間部材240を直接に支持して、中間部材200と弾性部材300とを介して機械装置を支持する粘性要素である。
The spring / damper support member 600 is a member that supports the intermediate member 200 from below with a spring and a damper.
For example, the spring / damper support member 600 is a member that supports the intermediate member 200 from below with a spring and a damper via the base intermediate member 240.
The spring / damper support member 600 includes a spring 610 and a damper 620.
The spring 610 is an elastic element that directly supports the base intermediate member 240 and supports the mechanical device via the intermediate member 200 and the elastic member 300.
The damper 620 is a viscous element that directly supports the base intermediate member 240 and supports the mechanical device via the intermediate member 200 and the elastic member 300.

カバー700は、中間部材200と基礎との隙間を覆う布部材である。   The cover 700 is a cloth member that covers the gap between the intermediate member 200 and the foundation.

次に、本発明の第四の実施形態にかかる機械装置支持構造を、図を基に、説明する。図10は、本発明の第四の実施形態に係る機械装置支持構造の正面図である。   Next, a mechanical device support structure according to a fourth embodiment of the present invention will be described with reference to the drawings. FIG. 10 is a front view of the mechanical device support structure according to the fourth embodiment of the present invention.

機械装置支持構造は、複数の中間部材200と複数の弾性部材300と基礎中間部材240とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、第一中間部材乃至第M中間部材200と第一弾性部材乃至第M弾性部材300と基礎中間部材240とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、第一中間部材乃至第M中間部材200と第一弾性部材乃至第M弾性部材300と第一充填部材乃至第M充填部材400と基礎中間部材240とばね/ダンパ式支持部材600とで構成されてもよい。
機械装置支持構造は、第一中間部材乃至第M中間部材200と第一弾性部材乃至第M弾性部材300と第一充填部材乃至第M充填部材400と基礎中間部材240とばね/ダンパ式支持部材600とカバー700とで構成されてもよい。
ここで、MがN+1の数であって、Nが2、3・・・のうちのひとつの数である。
図10は、第一中間部材乃至第M中間部材200と第一弾性部材乃至第M弾性部材300と基礎中間部材240とばね/ダンパ式支持部材600とで構成され、一部を省略した機械装置支持構造を示す。
The mechanical device support structure may include a plurality of intermediate members 200, a plurality of elastic members 300, a base intermediate member 240, and a spring / damper type support member 600.
The mechanical device support structure may include a first intermediate member to an Mth intermediate member 200, a first elastic member to an Mth elastic member 300, a base intermediate member 240, and a spring / damper type support member 600.
The mechanical device support structure includes a first intermediate member through an Mth intermediate member 200, a first elastic member through an Mth elastic member 300, a first filler member through an Mth filler member 400, a base intermediate member 240, and a spring / damper support member. 600.
The mechanical device support structure includes a first intermediate member through an Mth intermediate member 200, a first elastic member through an Mth elastic member 300, a first filler member through an Mth filler member 400, a base intermediate member 240, and a spring / damper support member. 600 and cover 700 may be used.
Here, M is a number of N + 1, and N is one of 2, 3,.
FIG. 10 shows a mechanical device that includes a first intermediate member to an M-th intermediate member 200, a first elastic member to an M-th elastic member 300, a base intermediate member 240, and a spring / damper-type support member 600, and a part thereof is omitted. The support structure is shown.

第一中間部材200は、第二の実施形態にかかる機械装置支持構造のものと同じなので、説明を省略する。
第二中間部材乃至第M中間部材200は、第一中間部材乃至第N中間部材200の各々の底面に各々に対面する上面を各々に形成し所定の厚みを各々にもつ他の中間部材である。
第二中間部材乃至第M中間部材が、第二中間部材乃至第M中間部材本体部と第二ドック部乃至第Mドック部とを有する。
第二中間部材乃至第M中間部材本体部201は、第二弾性部材乃至第M弾性部材300を各々に敷かれる上面を各々にもつ。
第二ドック部乃至第Mドック部202は、第一中間部材乃至第N中間部材200の相対的な上下移動を各々に許し所定距離を越える相対的な水平移行を各々に阻止できる様に上から見て第一中間部材乃至第N中間部材200の各々の底部との間に他の隙間空間である第二隙間空間乃至第M隙間空間を各々に形成して、第二中間部材本体乃至第M中間部材本体部201に各々に設けられる。
Since the first intermediate member 200 is the same as that of the mechanical device support structure according to the second embodiment, the description thereof is omitted.
The second intermediate member through the M-th intermediate member 200 are other intermediate members each having an upper surface facing each of the bottom surfaces of the first intermediate member through the N-th intermediate member 200 and having a predetermined thickness. .
The second intermediate member to the M-th intermediate member have a second intermediate member to an M-th intermediate member main body portion and a second dock portion to an M-th dock portion.
Each of the second intermediate member to the M-th intermediate member main body 201 has an upper surface on which the second elastic member to the M-th elastic member 300 are laid.
The second dock part to the M-th dock part 202 allow the relative movement of the first intermediate member to the N-th intermediate member 200 to each other and prevent relative horizontal shift exceeding a predetermined distance from above. The second intermediate member main body through the M-th M-th gap space are formed between the first intermediate member through the N-th intermediate member 200 and the bottom portions of the first intermediate member through the N-th intermediate member 200, respectively. The intermediate member main body 201 is provided in each.

第一弾性部材300は、第二の実施形態にかかる機械装置支持構造のものと同じなので、説明を省略する。
第二弾性部材乃至第M弾性部材300は、第一中間部材乃至第N中間部材200の各々の底面に当たって機械装置を支持する様に第二中間部材乃至第M中間部材200の各々の上面に各々に各々に敷かれる板状の他の弾性部材である。
Since the first elastic member 300 is the same as that of the mechanical device support structure according to the second embodiment, the description thereof is omitted.
The second elastic member to the M-th elastic member 300 are respectively placed on the upper surfaces of the second intermediate member to the M-th intermediate member 200 so as to contact the bottom surfaces of the first intermediate member to the N-th intermediate member 200 and support the mechanical device. It is the other plate-shaped elastic member laid in each.

第一充填部材400は、第二の実施形態にかかる機械装置支持構造のものと同じなので、説明を省略する。
第二充填部材乃至第M充填部材400は、任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する他の充填部材である。
Since the first filling member 400 is the same as that of the mechanical device support structure according to the second embodiment, the description thereof is omitted.
The second to Mth filling members 400 are other filling members that can be filled in an arbitrary space and solidify in the space while maintaining elasticity after filling.

第一中間部材200と第一弾性部材300と第一充填部材400との構造は、第二の実施形態にかかる機械装置支持構造のものと同じなので、説明を省略する。
第二中間部材乃至第M中間部材200及び第二弾性部材乃至第M弾性部材300とが上から順に交互に並ぶ様に積み重ねられる。
Since the structures of the first intermediate member 200, the first elastic member 300, and the first filling member 400 are the same as those of the mechanical device support structure according to the second embodiment, the description thereof is omitted.
The second intermediate member to the Mth intermediate member 200 and the second elastic member to the Mth elastic member 300 are stacked so as to be alternately arranged in order from the top.

第二充填部材乃至第M充填部材が第二隙間空間乃至第M隙間空間に各々に充填施行されてもよい。   The second filling member to the Mth filling member may be filled in the second gap space to the Mth gap space, respectively.

ばね/ダンパ支持部材が第二中間部材乃至第M中間部材と第二弾性部材乃至第M弾性部材とを介して第一中間部材を下方から支持する。
ばね/ダンパ支持部材とカバー700の構造は、第二の実施形態にかかる機械装置支持構造のものと同じなので、説明を省略する。
The spring / damper support member supports the first intermediate member from below through the second intermediate member through the Mth intermediate member and the second elastic member through the Mth elastic member.
Since the structure of the spring / damper support member and the cover 700 is the same as that of the mechanical device support structure according to the second embodiment, the description thereof is omitted.

上記の構造を採用することで、中間部材200の質量と弾性部材300のばねからなるばね/マス系を多段に重ねて、機械装置を支持することができる。   By adopting the above structure, the mechanical device can be supported by stacking the mass of the intermediate member 200 and the spring / mass system composed of the spring of the elastic member 300 in multiple stages.

以下に、本発明の実施形態にかかるずれ止めストッパ機構500を、図を基に、詳述する。
図11は、本発明の実施形態に係るずれ止めストッパ機構の構造説明図その1である。図12は、本発明の実施形態に係るずれ止めストッパ機構の構造説明図その2である。
Hereinafter, the stopper stopper mechanism 500 according to the embodiment of the present invention will be described in detail with reference to the drawings.
FIG. 11 is a first explanatory diagram of a structure of a stopper stopper mechanism according to the embodiment of the present invention. FIG. 12 is a second explanatory diagram of the structure of the stopper stopper mechanism according to the embodiment of the present invention.

図11は、ずれ止めストッパ機構を上下に重なった2つの中間部材のうちの下側の中間部材に設けられた貫通穴に固定する場合の3つのタイプを示している。
図11Aは、軸部材510とストッパ部材520と上側の付勢部材530とで構成するずれ止めストッパ機構を示す。
図11Bは、軸部材510とストッパ部材520と上側の第一付勢部材531と下側の第二付勢部材532とで構成するずれ止めストッパ機構を示す。
図11Cは、軸部材510とストッパ部材520と下側の付勢部材530とで構成するずれ止めストッパ機構を示す。
FIG. 11 shows three types in the case where the stopper stopper mechanism is fixed to a through hole provided in the lower intermediate member of the two intermediate members stacked one above the other.
FIG. 11A shows a displacement stopper mechanism including a shaft member 510, a stopper member 520, and an upper biasing member 530.
FIG. 11B shows a displacement stopper mechanism including a shaft member 510, a stopper member 520, an upper first biasing member 531, and a lower second biasing member 532.
FIG. 11C shows a displacement stopper mechanism including a shaft member 510, a stopper member 520, and a lower biasing member 530.

図12は、ずれ止めストッパ機構を上下に重なった2つの中間部材のうちの上側の中間部材に設けられた貫通穴に固定する場合の3つのタイプを示している。
図12Aは、軸部材510とストッパ部材520と上側の付勢部材530とで構成するずれ止めストッパ機構を示す。
図12Bは、軸部材510とストッパ部材520と上側の第一付勢部材531と下側の第二付勢部材532とで構成するずれ止めストッパ機構を示す。
図12Cは、軸部材510とストッパ部材520と下側の付勢部材530とで構成するずれ止めストッパ機構を示す。
FIG. 12 shows three types in the case where the stopper stopper mechanism is fixed to a through hole provided in an upper intermediate member of two intermediate members overlapped vertically.
FIG. 12A shows a displacement stopper mechanism including a shaft member 510, a stopper member 520, and an upper biasing member 530.
FIG. 12B shows a displacement stopper mechanism including a shaft member 510, a stopper member 520, an upper first biasing member 531, and a lower second biasing member 532.
FIG. 12C shows a displacement stopper mechanism including a shaft member 510, a stopper member 520, and a lower biasing member 530.

上述のとおり、本発明の実施実施形態に係る機械装置支持構造を用いれば、以下の効果を有する。
機械装置100の下部構造110を上面に敷かれる弾性部材300を介して中間部材200で支持し、中間部材200をばねとダンパーとで支持する様にしたので、中間部材200の質量と弾性部材300の弾性率を調整して機械装置100から発生する振動を抑制できる。
また、機械装置100の下部構造110を上面に敷いた弾性部材300を介して中間部材本体部201で支持し、中間部材本体部201に設けられたドック部202と下部構造110との隙間空間に弾性のある充填部材400を充填し、下部構造110の上下移動を許し、下部構造110の水平移動を充填部材400を介して阻止する様にしたので、下部構造110に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをできる。
また、第一中間部材210を上面に敷いた弾性部材300を介して第二中間部材本体220で支持し、第二中間部材本体部221に設けられた第二ドック部222と第一中間部材210との隙間空間に弾性のある第二充填部材420を充填し、第一中間部材210の上下移動を許し、第一中間部材210の水平移動を第二充填部材420を介して阻止する様にしたので、下部構造110に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをできる。
また、中間部材200の質量と弾性部材300のばねからなるばね/マス系を多段に重ねることにより振動吸収の効果を上げることができる。
また、中間部材200を上面に敷いた基礎弾性部材340を介して基礎中間部材240で支持し、基礎中間部材240にずれ止めストッパ機構500を設け、基礎中間部材240に設けた基礎貫通穴に軸部材510を貫通させ、ストッパ部材520が軸部材510にストッパ貫通穴を貫通され、ストッパ部材520を基礎中間部材240の上面に所定の付勢力で押付ける様にしたので、下部構造110に振動が発生したときに、機械装置支持構造に引き抜き力が発生せず、水平移動による振動が機械装置支持構造に作用する力を緩和することをできる。
As described above, the use of the mechanical device support structure according to the embodiment of the present invention has the following effects.
Since the lower structure 110 of the mechanical device 100 is supported by the intermediate member 200 via the elastic member 300 laid on the upper surface, and the intermediate member 200 is supported by the spring and the damper, the mass of the intermediate member 200 and the elastic member 300 are supported. The vibration which generate | occur | produces from the mechanical apparatus 100 can be suppressed by adjusting the elasticity modulus.
Further, the lower structure 110 of the mechanical device 100 is supported by the intermediate member main body 201 via the elastic member 300 laid on the upper surface, and a gap space between the dock portion 202 provided in the intermediate member main body 201 and the lower structure 110 is supported. Since the elastic filling member 400 is filled, the vertical movement of the lower structure 110 is allowed, and the horizontal movement of the lower structure 110 is prevented through the filling member 400, so that when vibration occurs in the lower structure 110, No pulling force is generated in the mechanical device support structure, and the force exerted on the mechanical device support structure by vibration due to horizontal movement can be reduced.
Further, the first intermediate member 210 is supported by the second intermediate member main body 220 via the elastic member 300 laid on the upper surface, and the second dock portion 222 provided on the second intermediate member main body portion 221 and the first intermediate member 210. The elastic second filling member 420 is filled in the gap space between the first intermediate member 210 and the first intermediate member 210 is allowed to move up and down, and the horizontal movement of the first intermediate member 210 is prevented through the second filling member 420. Therefore, when vibration is generated in the lower structure 110, no pulling force is generated in the mechanical device support structure, and the force exerted on the mechanical device support structure by vibration due to horizontal movement can be reduced.
Further, the effect of vibration absorption can be improved by overlapping the mass of the intermediate member 200 and the spring / mass system composed of the spring of the elastic member 300 in multiple stages.
Further, the intermediate member 200 is supported by the base intermediate member 240 via the base elastic member 340 laid on the upper surface, the slip stopper mechanism 500 is provided in the base intermediate member 240, and the shaft is inserted into the base through hole provided in the base intermediate member 240. Since the member 510 is penetrated and the stopper member 520 is penetrated by the shaft member 510 through the stopper through hole, and the stopper member 520 is pressed against the upper surface of the base intermediate member 240 with a predetermined urging force, the lower structure 110 is vibrated. When this occurs, no pulling force is generated in the mechanical device support structure, and the force acting on the mechanical device support structure due to vibration due to horizontal movement can be reduced.

本発明は以上に述べた実施形態に限られるものではなく、発明の要旨を逸脱しない範囲で各種の変更が可能である。
機械装置を鍛造機である場合を例に説明したが、これに限定されない。例えば、機械装置は、水力装置、機械工作装置、その他の装置であってもよい。
中間部材200は、中間部材本体部201と複数のドック部202とで構成されるとして説明したが、これに限定されない。例えば、単体のドック部材202が下部構造110または他の中間部材200の全周を囲う構造であってもよい。
The present invention is not limited to the embodiments described above, and various modifications can be made without departing from the scope of the invention.
Although the case where the mechanical device is a forging machine has been described as an example, the present invention is not limited to this. For example, the mechanical device may be a hydraulic device, a machine tool, or another device.
The intermediate member 200 has been described as being configured by the intermediate member main body 201 and the plurality of dock portions 202, but is not limited thereto. For example, a structure in which the single dock member 202 surrounds the entire circumference of the lower structure 110 or the other intermediate member 200 may be employed.

特開平6−031403JP-A-6-031403 特開平8−141794JP-A-8-141794 特開平9−150299JP 9-150299 A

100 機械装置
110 下部構造
120 アクチエータ
130 ハンマー
140 上部構造
200 中間部材
201 中間部材本体部
202 ドック部
210 第一中間部材
211 第一中間部材本体部
212 第一ドック部
220 第二中間部材
221 第二中間部材本体部
222 第二ドック部
230 第三中間部材
231 第三中間部材本体部
232 第三ドック部
233 基礎ドック部
240 基礎中間部材
300 弾性部材
310 第一弾性部材
320 第二弾性部材
330 第三弾性部材
340 基礎弾性部材
400 充填部材
410 第一充填部材
420 第二充填部材
430 第三充填部材
500 ずれ止めストッパ機構
510 軸部材
511 ロッド部材
512 第一ロッドエンド
513 第二ロッドエンド
520 ストッパ部材
530 付勢部材
531 第一付勢部材
532 第二付勢部材
600 ばね/ダンパ式支持部材
610 ばね
620 ダンパー
700 カバー
DESCRIPTION OF SYMBOLS 100 Mechanical apparatus 110 Lower structure 120 Actuator 130 Hammer 140 Upper structure 200 Intermediate member 201 Intermediate member main body part 202 Dock part 210 First intermediate member 211 First intermediate member main body part 212 First dock part 220 Second intermediate member 221 Second intermediate part Member body part 222 Second dock part 230 Third intermediate member 231 Third intermediate member body part 232 Third dock part 233 Foundation dock part 240 Foundation intermediate member 300 Elastic member 310 First elastic member 320 Second elastic member 330 Third elasticity Member 340 Base elastic member 400 Filling member 410 First filling member 420 Second filling member 430 Third filling member 500 Stop stopper mechanism 510 Shaft member 511 Rod member 512 First rod end 513 Second rod end 520 Stopper member 530 Energizing Part 531 first urging member 532 second biasing member 600 spring / damper type support member 610 spring 620 damper 700 Cover

Claims (8)

平面状の底面を形成する下部構造を有する機械装置を支持する構造である機械装置支持構造であって、
下部構造の底面に対面する上面を形成し所定の厚みをもつ中間部材と、
下部構造の底面に当たって機械装置を支持する様に前記中間部材の上面に敷かれる板状の弾性部材と、
前記中間部材を下方からばねとダンパーとで支持するばね/ダンパ式支持部材と、
を備えることを特徴とする機械装置支持構造。
A mechanical device support structure that is a structure that supports a mechanical device having a lower structure that forms a planar bottom surface,
An intermediate member having a predetermined thickness and forming an upper surface facing the bottom surface of the lower structure;
A plate-like elastic member laid on the upper surface of the intermediate member so as to support the mechanical device by hitting the bottom surface of the lower structure;
A spring / damper-type support member that supports the intermediate member from below with a spring and a damper;
A mechanical device support structure comprising:
任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する充填部材を、
備え、
前記中間部材が前記弾性部材を敷かれる上面をもつ中間部材本体部と下部構造の相対的な上下移動を許し所定距離を越える相対的な水平移動を阻止できる様に上から見て下部構造の底部との間に隙間空間を形成して前記中間部材本体部に設けられるドック部とを有し、
前記充填部材が前記隙間空間に充填施行された、
ことを特徴とする請求項1に記載の機械装置支持構造。
A filling member that can be filled in any space and solidifies in the space while maintaining elasticity after filling is performed,
Prepared,
The bottom part of the lower structure as viewed from above so that the intermediate member main body having the upper surface on which the elastic member is laid and the lower structure can be relatively vertically moved and the horizontal movement exceeding a predetermined distance can be prevented. And a dock part provided in the intermediate member main body part by forming a gap space between
The filling member is filled into the gap space,
The mechanical device support structure according to claim 1, wherein
前記中間部材である第一中間部材の底面に対面する上面を形成し所定の厚みをもつ他の中間部材である第二中間部材と、
前記第一中間部材の底面に当たって機械装置を支持する様に前記第二中間部材の上面に敷かれる板状の他の弾性部材である第二弾性部材と、
任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する他の充填部材である第二充填部材と、
を備え、
前記第二中間部材が前記第二弾性部材を敷かれる上面をもつ第二中間部材本体部と前記第一中間部材の相対的な上下移動を許し所定距離を越える相対的な水平移行を阻止できる様に上から見て前記第一中間部材の底部との間に他の隙間空間である第二隙間空間を形成して前記第二中間部材本体部に設けられる第二ドック部とを有し、
前記第二充填部材が前記第二隙間空間に充填施行され、
前記ばね/ダンパ支持部材が前記第二中間部材と前記第二弾性部材とを介して前記第一中間部材を下方から支持する、
ことを特徴とする請求項2に記載の機械装置支持構造。
A second intermediate member which is another intermediate member having a predetermined thickness and forming an upper surface facing the bottom surface of the first intermediate member which is the intermediate member;
A second elastic member, which is another plate-like elastic member laid on the upper surface of the second intermediate member so as to support the mechanical device by hitting the bottom surface of the first intermediate member;
A second filling member that is another filling member that can be filled in an arbitrary space and solidifies in the space while maintaining elasticity after filling is performed;
With
The second intermediate member allows relative vertical movement of the second intermediate member main body having the upper surface on which the second elastic member is laid and the first intermediate member to prevent relative horizontal shift exceeding a predetermined distance. And a second dock part provided in the second intermediate member main body part by forming a second gap space which is another gap space between the bottom part of the first intermediate member as viewed from above,
The second filling member is filled into the second gap space,
The spring / damper support member supports the first intermediate member from below via the second intermediate member and the second elastic member;
The mechanical device support structure according to claim 2, wherein
Nが2、3・・・のうちのひとつの数であって、
MがN+1の数であって、
前記第一中間部材乃至第N中間部材の各々の底面に各々に対面する上面を各々に形成し所定の厚みを各々にもつ他の中間部材である第二中間部材乃至第M中間部材と、
前記第一中間部材乃至前記第N中間部材の各々の底面に当たって機械装置を支持する様に前記第二中間部材乃至第M中間部材の各々の上面に各々に各々に敷かれる板状の他の弾性部材である第二弾性部材乃至第M弾性部材と、
任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する他の充填部材である第二充填部材乃至第M充填部材と、
を備え、
前記第二中間部材乃至前記第M中間部材及び前記第二弾性部材乃至前記第M弾性部材とが上から順に交互に並ぶ様に積み重ねられ、
前記第二中間部材乃至前記第M中間部材が前記第二弾性部材乃至前記第M弾性部材を各々に敷かれる上面を各々にもつ第二中間部材乃至第M中間部材本体部と前記第一中間部材乃至前記第N中間部材の相対的な上下移動を各々に許し所定距離を越える相対的な水平移行を各々に阻止できる様に上から見て前記第一中間部材乃至前記第N中間部材の各々の底部との間に他の隙間空間である第二隙間空間乃至第M隙間空間を各々に形成して第二中間部材本体乃至前記第M中間部材本体部に各々に設けられる第二ドック部乃至第Mドック部とを有し、
前記第二充填部材乃至前記第M充填部材が前記第二隙間空間乃至前記第M隙間空間に各々に充填施行され、
前記ばね/ダンパ支持部材が前記第二中間部材乃至前記第M中間部材と前記第二弾性部材乃至前記第M弾性部材とを介して前記第一中間部材を下方から支持する、
ことを特徴とする請求項3に記載の機械装置支持構造。
N is one of 2, 3 ...
M is a number of N + 1,
A second intermediate member to an M-th intermediate member, which are other intermediate members each having a predetermined thickness on the bottom surface of each of the first intermediate member to the N-th intermediate member;
Other plate-like elasticity laid on each of the upper surfaces of the second intermediate member to the M-th intermediate member so as to support the mechanical device by hitting the bottom surfaces of the first to N-th intermediate members. A second elastic member to an M-th elastic member, which are members;
A second filling member to an Mth filling member, which are other filling members that can be filled in an arbitrary space and solidify in the space while maintaining elasticity after filling is performed;
With
The second intermediate member to the Mth intermediate member and the second elastic member to the Mth elastic member are stacked so as to be alternately arranged in order from above.
The second intermediate member to the M-th intermediate member main body and the first intermediate member each having an upper surface on which the second intermediate member to the M-th intermediate member are laid on the second elastic member to the M-th elastic member, respectively. Each of the first intermediate member to the N-th intermediate member is viewed from above so that relative vertical movement of each of the N-th intermediate members can be allowed and relative horizontal shift exceeding a predetermined distance can be prevented. A second gap portion or an Mth gap space, which is another gap space, is formed between the bottom portion and the second intermediate member body or the second dock portion or the second dock portion provided in the Mth intermediate member body portion, respectively. M dock part,
The second filling member to the Mth filling member are charged into the second gap space to the Mth gap space,
The spring / damper support member supports the first intermediate member from below via the second intermediate member to the Mth intermediate member and the second elastic member to the Mth elastic member;
The mechanical apparatus supporting structure according to claim 3.
前記中間部材の底面に対面する上面を形成し所定の厚みをもつ部材である他の中間部材である基礎中間部材と、
前記中間部材の底面に当たって機械装置を支持する様に前記基礎中間部材の上面に敷かれる板状の他の弾性部材である基礎弾性部材と、
前記中間部材の相対的な上下移動を許し所定距離を越える相対的な水平移動を阻止できるずれ止めストッパ機構と、
を備え、
前記中間部材が前記ずれ止めストッパ機構を設けられる位置に上下に貫通する貫通穴である基礎貫通穴を設けられ、
前記ずれ止めストッパ機構が前記基礎貫通穴を貫通して設けられる軸部材と上下方向に貫通する貫通穴であるストッパ貫通穴を設けられ該軸部材に該ストッパ貫通穴を貫通されるストッパ部材と該ストッパ部材を前記中間部材に所定の付勢力で上下方向に沿って押付ける付勢部材とを有し、
前記ばね/ダンパ支持部材が前記基礎中間部材と前記基礎弾性部材とを介して記中間部材を下方から支持する、
ことを特徴とする請求項4に記載の機械装置支持構造。
A base intermediate member that is another intermediate member that is a member having a predetermined thickness and forming an upper surface facing the bottom surface of the intermediate member;
A base elastic member that is another elastic member in the form of a plate placed on the upper surface of the base intermediate member so as to support the mechanical device by hitting the bottom surface of the intermediate member;
A slip stopper mechanism that allows relative vertical movement of the intermediate member and prevents relative horizontal movement exceeding a predetermined distance;
With
A foundation through hole which is a through hole penetrating vertically at a position where the intermediate member is provided with the displacement stopper mechanism;
A stopper member that is provided with a shaft member provided through the basic through hole and a stopper through hole that is a through hole penetrating in the vertical direction; and a stopper member that passes through the stopper through hole. A biasing member that presses the stopper member along the vertical direction with a predetermined biasing force against the intermediate member;
The spring / damper support member supports the intermediate member from below via the basic intermediate member and the basic elastic member;
The mechanical device support structure according to claim 4, wherein
Nが2、3・・・のうちのひとつの数であって、
MがN+1の数であって、
前記中間部材である第一中間部材乃至第N中間部材の各々の底面に各々に対面する上面を各々に形成し所定の厚みを各々にもつ他の中間部材である第二中間部材乃至第M中間部材と、
前記第一中間部材乃至前記第N中間部材の各々の底面に当たって機械装置を支持する様に前記第二中間部材乃至第M中間部材の各々の上面に各々に敷かれる板状の他の弾性部材である第二弾性部材乃至第M弾性部材と、
を備え、
前記第二中間部材乃至前記第M中間部材及び前記第二弾性部材乃至前記第M弾性部材とが上から順に交互に並ぶ様に積み重ねられ、
前記ばね/ダンパ支持部材が前記第二中間部材乃至前記第M中間部材と前記第二弾性部材乃至前記第M弾性部材とを介して前記第一中間部材を下方から支持する、
ことを特徴とする請求項1に記載の機械装置支持構造。
N is one of 2, 3 ...
M is a number of N + 1,
The second intermediate member to the M-th intermediate member, which are other intermediate members, each having a predetermined thickness on the bottom surface of each of the first intermediate member to the N-th intermediate member, which is the intermediate member. Members,
A plate-like elastic member laid on the upper surface of each of the second intermediate member to the M-th intermediate member so as to support the mechanical device by contacting the bottom surface of each of the first intermediate member to the N-th intermediate member. A second elastic member to an M-th elastic member;
With
The second intermediate member to the Mth intermediate member and the second elastic member to the Mth elastic member are stacked so as to be alternately arranged in order from above.
The spring / damper support member supports the first intermediate member from below via the second intermediate member to the Mth intermediate member and the second elastic member to the Mth elastic member;
The mechanical device support structure according to claim 1, wherein
Nが2、3・・・のうちのひとつの数であって、
MがN+1の数であって、
前記中間部材である第一中間部材乃至第N中間部材の各々の底面に各々に対面する上面を各々に形成し所定の厚みを各々にもつ他の中間部材である第二中間部材乃至第M中間部材と、
前記第一中間部材乃至前記第N中間部材の各々の底面に当たって機械装置を支持する様に前記第二中間部材乃至第M中間部材の各々の上面に各々に敷かれる板状の他の弾性部材である第二弾性部材乃至第M弾性部材と、
任意の空間に充填施行でき充填施行した後で弾性を維持したまま空間の中で固化する他の充填部材である第二充填部材乃至第M充填部材と、
を備え、
前記第二中間部材乃至前記第M中間部材及び前記第二弾性部材乃至前記第M弾性部材とが上から順に交互に並ぶ様に積み重ねられ、
前記第二中間部材乃至前記第M中間部材が前記第二弾性部材乃至前記第M弾性部材を各々に敷かれる上面を各々にもつ第二中間部材乃至第M中間部材本体部と前記第一中間部材乃至前記第N中間部材の相対的な上下移動を各々に許し所定距離を越える相対的な水平移行を各々に阻止できる様に上から見て前記第一中間部材乃至前記第N中間部材の各々の底部との間に他の隙間空間である第二隙間空間乃至第M隙間空間を各々に形成して第二中間部材本体乃至前記第M中間部材本体部に各々に設けられる第二ドック部乃至第Mドック部とを有し、
前記第二充填部材乃至前記第M充填部材が前記第二隙間空間乃至前記第M隙間空間に各々に充填施行され、
前記ばね/ダンパ支持部材が前記第二中間部材乃至前記第M中間部材と前記第二弾性部材乃至前記第M弾性部材とを介して前記第一中間部材を下方から支持する、
ことを特徴とする請求項2に記載の機械装置支持構造。
N is one of 2, 3 ...
M is a number of N + 1,
The second intermediate member to the M-th intermediate member, which are other intermediate members, each having a predetermined thickness on the bottom surface of each of the first intermediate member to the N-th intermediate member, which is the intermediate member. Members,
A plate-like elastic member laid on the upper surface of each of the second intermediate member to the M-th intermediate member so as to support the mechanical device by contacting the bottom surface of each of the first intermediate member to the N-th intermediate member. A second elastic member to an M-th elastic member;
A second filling member to an Mth filling member, which are other filling members that can be filled in an arbitrary space and solidify in the space while maintaining elasticity after filling is performed;
With
The second intermediate member to the Mth intermediate member and the second elastic member to the Mth elastic member are stacked so as to be alternately arranged in order from above.
The second intermediate member to the M-th intermediate member main body and the first intermediate member each having an upper surface on which the second intermediate member to the M-th intermediate member are laid on the second elastic member to the M-th elastic member, respectively. Each of the first intermediate member to the N-th intermediate member is viewed from above so that relative vertical movement of each of the N-th intermediate members can be allowed and relative horizontal shift exceeding a predetermined distance can be prevented. A second gap portion or an Mth gap space, which is another gap space, is formed between the bottom portion and the second intermediate member body or the second dock portion or the second dock portion provided in the Mth intermediate member body portion, respectively. M dock part,
The second filling member to the Mth filling member are charged into the second gap space to the Mth gap space,
The spring / damper support member supports the first intermediate member from below via the second intermediate member to the Mth intermediate member and the second elastic member to the Mth elastic member;
The mechanical device support structure according to claim 2, wherein
前記中間部材の底面に対面する上面を形成し所定の厚みをもつ部材である他の中間部材である基礎中間部材と、
前記中間部材の底面に当たって機械装置を支持する様に前記基礎中間部材の上面に敷かれる板状の弾性部材である基礎弾性部材と、
前記中間部材の相対的な上下移動を許し所定距離を越える相対的な水平移動を阻止できるずれ止めストッパ機構と、
を備え、
前記中間部材が前記ずれ止めストッパ機構を設けられる位置に上下に貫通する貫通穴である基礎貫通穴を設けられ、
前記ずれ止めストッパ機構が前記基礎貫通穴を貫通して設けられる軸部材と上下方向に貫通する貫通穴であるストッパ貫通穴を設けられ該軸部材に該ストッパ貫通穴を貫通されるストッパ部材と該ストッパ部材を前記中間部材に所定の付勢力で上下方向に沿って押付ける付勢部材とを有し、
前記ばね/ダンパ支持部材が前記基礎中間部材と前記基礎弾性部材とを介して記中間部材を下方から支持する、
ことを特徴とする請求項2に記載の機械装置支持構造。
A base intermediate member that is another intermediate member that is a member having a predetermined thickness and forming an upper surface facing the bottom surface of the intermediate member;
A base elastic member that is a plate-like elastic member laid on the top surface of the base intermediate member so as to support the mechanical device by hitting the bottom surface of the intermediate member;
A slip stopper mechanism that allows relative vertical movement of the intermediate member and prevents relative horizontal movement exceeding a predetermined distance;
With
A foundation through hole which is a through hole penetrating vertically at a position where the intermediate member is provided with the displacement stopper mechanism;
A stopper member that is provided with a shaft member provided through the basic through hole and a stopper through hole that is a through hole penetrating in the vertical direction; and a stopper member that passes through the stopper through hole. A biasing member that presses the stopper member along the vertical direction with a predetermined biasing force against the intermediate member;
The spring / damper support member supports the intermediate member from below via the basic intermediate member and the basic elastic member;
The mechanical device support structure according to claim 2, wherein
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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH02283995A (en) * 1989-04-21 1990-11-21 Daihatsu Diesel Mfg Co Ltd Vibration-proof device for diesel engine
JPH05296289A (en) * 1992-04-17 1993-11-09 Zenji Inagaki Floating foundation type storing vibration damping device
JP2002129501A (en) * 2000-10-26 2002-05-09 Sagami Railway Co Ltd Elastic body-covered concrete sleeper

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH02283995A (en) * 1989-04-21 1990-11-21 Daihatsu Diesel Mfg Co Ltd Vibration-proof device for diesel engine
JPH05296289A (en) * 1992-04-17 1993-11-09 Zenji Inagaki Floating foundation type storing vibration damping device
JP2002129501A (en) * 2000-10-26 2002-05-09 Sagami Railway Co Ltd Elastic body-covered concrete sleeper

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