JPS5923889Y2 - Anti-vibration table - Google Patents
Anti-vibration tableInfo
- Publication number
- JPS5923889Y2 JPS5923889Y2 JP1978083446U JP8344678U JPS5923889Y2 JP S5923889 Y2 JPS5923889 Y2 JP S5923889Y2 JP 1978083446 U JP1978083446 U JP 1978083446U JP 8344678 U JP8344678 U JP 8344678U JP S5923889 Y2 JPS5923889 Y2 JP S5923889Y2
- Authority
- JP
- Japan
- Prior art keywords
- rubber plate
- synthetic resin
- resin foam
- frame
- vibration
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Vibration Dampers (AREA)
Description
【考案の詳細な説明】
本考案はパッケージエアコン及びチーリングユニットそ
の他冷蔵暖房器具等の防振台に関するものである。[Detailed Description of the Invention] The present invention relates to a vibration isolation table for packaged air conditioners, cooling units, and other refrigerating and heating appliances.
従来の防振台は第1図のような四隅か′直角であり四辺
からなる長方形の枠体からできたもので、材料は木材か
ポリエチレン等からできていた。A conventional anti-vibration table is made of a rectangular frame with four sides with four right angles as shown in Figure 1, and is made of wood or polyethylene.
木材やポリエチレンから作られた防振台は防振効果に乏
しく、接地面との間に間隙か生じ、その上玉いために運
搬施工にやや難点があった。Anti-vibration tables made from wood or polyethylene have poor anti-vibration effects, create gaps between them and the ground surface, and are also difficult to transport and install.
本考案は前述の欠点を改善したもので、木材やポリエチ
レンの代りに合成樹脂発泡体を用い、合成樹脂発泡体枠
体の下面すなわち尿液地部にゴム板を接着させ必要によ
り該合成樹脂発泡体枠体の上面すなわち積載器具接触部
の最外周には位置ぎめ・ズレ防止用の突堤を設け、防振
効果を具備すると共に、運搬・施工が容易で軽量の防振
台をうろことができた。The present invention improves the above-mentioned drawbacks by using synthetic resin foam instead of wood or polyethylene, and attaching a rubber plate to the lower surface of the synthetic resin foam frame, that is, the urine fluid base, and then forming the synthetic resin foam as necessary. A jetty for positioning and preventing displacement is provided on the upper surface of the body frame, that is, on the outermost periphery of the contact area of the loaded equipment, which has a vibration-proofing effect, and is easy to transport and install, making it possible to move around the lightweight vibration-proofing table. Ta.
本考案を図面によって説明する。The present invention will be explained with reference to the drawings.
第1図は従来例で枠体1は木材又はポリエチレンから作
られている。FIG. 1 shows a conventional example in which a frame body 1 is made of wood or polyethylene.
第2図は本考案の接地面全面ゴム板接着型防振台の斜視
図で、合成樹脂発泡体枠体の下面3Cには接地面全面貼
着ゴム板4aを接着剤にて接着する。FIG. 2 is a perspective view of the anti-vibration table of the present invention, in which a rubber plate 4a is bonded to the entire surface of the ground surface and is bonded to the lower surface 3C of the synthetic resin foam frame with an adhesive.
斜線を施した側面と上面3aは防水性、耐久性並びに装
飾性の面から塗装する。The side surfaces and top surface 3a marked with diagonal lines are painted for waterproofness, durability, and decorativeness.
第3図は本考案のゴム板四隅接着型突堤付防振台の斜視
図で位置ぎめ・ズレ防止用のための突堤3bを合成樹脂
発泡体枠体の上面3aの最外周に設ける。FIG. 3 is a perspective view of the rubber plate four-corner adhesive type anti-vibration table with a jetty according to the present invention, in which a jetty 3b for positioning and prevention of displacement is provided on the outermost periphery of the upper surface 3a of the synthetic resin foam frame.
また合成樹脂発泡体の下面3Cには四隅貼着用ゴム板4
bを接着固定している。In addition, on the lower surface 3C of the synthetic resin foam, there are rubber plates 4 for attaching the four corners.
b is fixed with adhesive.
第4図から第10図までは四隅貼着用ゴム板4bの説明
図である。FIG. 4 to FIG. 10 are explanatory diagrams of the rubber plate 4b for attaching four corners.
第4図はL字形ゴム板の斜視図でゴム板に円柱形の突起
8を複数個設けた形状をしている。FIG. 4 is a perspective view of an L-shaped rubber plate, which has a shape in which a plurality of cylindrical projections 8 are provided on the rubber plate.
該突起は床部とのスベリ防止並びに防振効果に寄与する
。The protrusions contribute to prevention of slippage with the floor and vibration damping effect.
第5図、第7図並びに第8図は四隅貼着用三角形状ゴム
板の平面図で接地面の形状は第5図においては長辺に平
行に直線状リブ部6aと直線状溝部7が交互に配列され
た形状になっている。Figures 5, 7, and 8 are plan views of the triangular rubber plate for attaching the four corners. In Figure 5, the shape of the ground surface is made up of alternating linear ribs 6a and linear grooves 7 parallel to the long sides. It is arranged in a shape.
そして第7図においては長辺に対し垂直に、第8図はお
いては長辺に対し45度の角度で直線状ノブ部6aと直
線状溝部7が交互に配列された形状になっている。In FIG. 7, the linear knob portions 6a and the linear groove portions 7 are alternately arranged perpendicularly to the long side, and in FIG. 8, at an angle of 45 degrees to the long side.
第6図は第5図の側面図を示している。FIG. 6 shows a side view of FIG.
長方形枠体への粘着面9bは平担であるが、接地面9a
は直線状リブ部6aは直線状高リブ部6bと直線状低リ
ブ部6Cが交互に配列された形状になっている。The adhesive surface 9b to the rectangular frame is flat, but the contact surface 9a
The linear rib portion 6a has a shape in which linear high rib portions 6b and linear low rib portions 6C are alternately arranged.
積載重量物が軽量である場合は接地面9aの直線状リブ
部6aは平担でも防振効果はあるが、積載重量物が重い
場合は、第6図で図示したようにまず直線状高リブ部6
bで最初の荷重を支え、ついで直線状低リブ部6Cで残
りの荷重を支える構造にした方が望ましい。If the loaded load is light, the linear rib portion 6a of the ground plane 9a can have a vibration-proofing effect even if it is laid flat, but if the loaded load is heavy, the linear high rib portion 6a is first used as shown in FIG. Part 6
It is preferable to adopt a structure in which the initial load is supported by the portion b, and then the remaining load is supported by the linear low rib portion 6C.
第9図は第8図の側面図を示している。FIG. 9 shows a side view of FIG.
第9図に示したゴム板の長方形枠体への貼着面9bもゴ
ム板の接地面9aと同じように直線状高リブ部6bと直
線状低リブ部6Cとが交互に配列された構造になってい
る。The surface 9b of the rubber plate attached to the rectangular frame shown in FIG. 9 has a structure in which linear high rib portions 6b and linear low rib portions 6C are alternately arranged in the same manner as the contact surface 9a of the rubber plate. It has become.
ゴム板の貼着面が高リブ部と低リブ部からなっている場
合には縦横・左右・前後の振動・動きに対して接地面と
の相乗的な防振効果が期待できる。If the surface to which the rubber plate is attached consists of high rib portions and low rib portions, a synergistic vibration-proofing effect with the ground surface can be expected against vibrations and movements in the vertical, horizontal, horizontal, and front-rear directions.
第9図は分りやすいようにゴム板の接地面9aと貼着面
9bのリブ部6aは中間ゴムシート5を介して同一方向
に配列されているが、最も望ましい配列は中間ゴムシー
ト5を介して貼着面9bと接地面9aの直線状リブ部6
aが直交した構造である。In FIG. 9, for ease of understanding, the rib portions 6a of the contact surface 9a and the adhesion surface 9b of the rubber plate are arranged in the same direction with an intermediate rubber sheet 5 interposed therebetween. The linear rib portion 6 of the adhesive surface 9b and the ground surface 9a
This is a structure in which a is orthogonal.
第10図はL字形ゴム板の平面図である。該り字形ゴム
板も直線状リブ部6aと直線状溝部7とが交互に配列さ
れた構造である。FIG. 10 is a plan view of the L-shaped rubber plate. The L-shaped rubber plate also has a structure in which linear rib portions 6a and linear groove portions 7 are arranged alternately.
しかしゴム板の接地面(貼着面も含めて)の形状は第4
図から第10図において図示したものに限定するもので
はなく、少くとも接地面の形状は軽量用防止台において
は凹凸のない平担な突起8又は直線状リブ部6aからな
るものであり、重量用防振台においては突起8又は直線
状リブ部は相隣る位置にあるものとの間に規間性ある高
低を設けることによって縦横・左右・前後の複雑な振動
やズレを吸収する構造とする。However, the shape of the contact surface of the rubber plate (including the adhesive surface) is
The shape of the ground contact surface is not limited to that shown in FIGS. In the anti-vibration table, the protrusions 8 or linear ribs have a structure that absorbs complex vertical, horizontal, horizontal, and front-rear vibrations by providing regular heights between adjacent parts. do.
第11図から第13図にかけては、四隅貼着用ゴム板の
多面取りの平面図を示している。FIG. 11 to FIG. 13 are plan views of multi-sided rubber plates for attaching four corners.
第11図は直角三角形型ゴム板の四面取の平面図であり
、第12図は直角三角形型ゴム板の2面取りの平面図で
、第13図はL字型ゴム板の2面取りの平面図である。Fig. 11 is a plan view of a right triangular rubber plate with four chamfers, Fig. 12 is a plan view of a right triangular rubber plate with two chamfers, and Fig. 13 is a plan view of an L-shaped rubber plate with two chamfers. It is.
四隅貼着用ゴム板の製造にあたっては多面取りによって
未加硫ゴムを長方形の形状にすることができ製造の合理
化が可能になってくる。When manufacturing a rubber plate for attaching four corners, multi-sided cutting allows the unvulcanized rubber to be shaped into a rectangular shape, making it possible to rationalize the manufacturing process.
枠体接地面全面貼着用ゴム板4aもL字型ゴム板の2面
取りの変形によって、L字型ゴム板4枚で作ることが可
能である。The rubber plate 4a for attaching the whole surface of the frame body grounding surface can also be made from four L-shaped rubber plates by modifying the L-shaped rubber plate with two chamfers.
第13図においては、複数個の釘穴11を設けているが
、合成樹脂発泡体の下面(3C:ゴム板との接着面)と
ゴム板の貼着面9bを接着剤で個定する場合釘10によ
って該枠体2と該ゴム板4bの接着固定をより強固にす
るために用いられる。In Fig. 13, a plurality of nail holes 11 are provided, but in the case where the lower surface of the synthetic resin foam (3C: adhesive surface with the rubber plate) and the adhesive surface 9b of the rubber plate are individually defined with adhesive. The nails 10 are used to further strengthen the adhesive fixation between the frame body 2 and the rubber plate 4b.
釘10を用いる方法は第14図のような釘穴11を通し
て行う釘打法と第15図のような釘頭12をゴム板に内
蔵した方法が用いられる。The nail 10 can be used by driving the nail through the nail hole 11 as shown in FIG. 14, or by incorporating the nail head 12 into a rubber plate as shown in FIG. 15.
本考案に用いられる合成樹脂発泡体としては硬質ウレタ
ンフオーム、スチロール樹脂その他の合成樹脂発泡体を
用いることができるが、望ましいのは硬質ウレタンフオ
ーム及びスチロール樹脂であり、最も望ましいのは硬質
ウレタンフオームである。As the synthetic resin foam used in the present invention, hard urethane foam, styrene resin, and other synthetic resin foams can be used, but hard urethane foam and styrene resin are preferable, and hard urethane foam is most preferable. be.
これら合成樹脂発泡体の比重は0.05〜0.35が適
当であって、0.05以下では防振効果はあるが、重量
物支持体としての圧縮強度か弱すぎる。The appropriate specific gravity of these synthetic resin foams is 0.05 to 0.35, and if it is less than 0.05, it has a vibration-proofing effect, but the compressive strength as a support for heavy objects is too low.
比重が0.35以上になると逆に圧縮強度が大きくなる
が、防振効果が少くなる。Conversely, when the specific gravity is 0.35 or more, the compressive strength increases, but the vibration damping effect decreases.
合成樹脂発泡体枠体2の厚みは30〜120 m/mが
望ましい。The thickness of the synthetic resin foam frame 2 is preferably 30 to 120 m/m.
3Cm/m未満では、圧縮強度はあるが、防振効果がな
くなり、120m/m以上では防振効果はあるが、圧縮
強度と施工性並びに経済性の面で問題がある。If it is less than 3 Cm/m, there will be a compressive strength but no vibration-proofing effect, and if it is 120 m/m or more, there will be a vibration-proofing effect but there will be problems in terms of compressive strength, workability, and economy.
枠体の突堤3bの高さは10〜3Cm/mで突堤の幅は
10〜39m/mが望ましい。The height of the jetty 3b of the frame body is preferably 10 to 3 cm/m, and the width of the jetty is preferably 10 to 39 m/m.
該合成樹脂発泡体2の製造法としては、合成樹脂発泡体
枠体の上面(3a:積載重量物との接触面)をモールド
の底部に位置させ、合成樹脂発泡体枠体の下面(3C:
接地面)がモールド蓋部に位置するようにして、合成樹
脂発泡体混液をモールドに注入し発泡固化させる。The method for manufacturing the synthetic resin foam 2 includes positioning the upper surface of the synthetic resin foam frame (3a: contact surface with the loaded heavy object) at the bottom of the mold, and placing the lower surface of the synthetic resin foam frame (3C:
The synthetic resin foam mixture is poured into the mold so that the ground surface (ground surface) is located at the mold lid, and is foamed and solidified.
該方法で製造された合成樹脂発泡体枠体は外観装飾、防
水効果並びに耐久性向上のために該枠体の側面及び上面
(下面を除いた)に塗装を行う。The synthetic resin foam frame produced by this method is coated on the side and top surfaces (excluding the bottom surface) for appearance decoration, waterproofing effect, and improved durability.
塗装後にゴム板の接着固定を行う。After painting, the rubber plate is fixed with adhesive.
よりよい方法としてはモールド金型表面に予め40ミク
ロン前後のウレタン塗膜を塗布し、合成樹脂発泡体混液
をモールドに注入し発泡固化させる方法があり本製造法
では塗装工程は省略することができる。A better method is to apply a urethane coating of around 40 microns on the surface of the mold in advance, then inject the synthetic resin foam mixture into the mold and foam and solidify it. With this manufacturing method, the coating step can be omitted. .
合成樹脂発泡体枠体の四隅補強には第16図のような三
角柱の補強部13を合成樹脂発泡体枠体製造の際一体成
形するか又は接着法で個定してもよい。To reinforce the four corners of the synthetic resin foam frame, triangular prism-shaped reinforcing parts 13 as shown in FIG. 16 may be integrally molded during manufacture of the synthetic resin foam frame, or may be individually attached using an adhesive method.
いずれにしても四隅補強部13は枠体の上面から下面に
かけて三角柱又は四角柱を一体成形又は接着固定法で付
加すればよい。In any case, the four corner reinforcing portions 13 may be formed by adding triangular or square prisms from the upper surface to the lower surface of the frame body by integral molding or adhesive fixing.
四隅補強部13の形状は上述の形に限定するものではな
い。The shape of the four corner reinforcement portions 13 is not limited to the above-mentioned shape.
また合成樹脂発泡体枠体の補強法としては繊維糸状物質
を枠体内に一体発泡させてもよい。Further, as a method of reinforcing the synthetic resin foam frame, a fiber thread-like substance may be integrally foamed inside the frame.
次にゴム板の接地面の形状について述べると接地面の面
積は溝部7又は非接地面の面積に較べ同じかそれ以上の
方が望ましい。Next, regarding the shape of the contact surface of the rubber plate, it is preferable that the area of the contact surface be equal to or larger than the area of the groove 7 or the non-contact surface.
ゴム板の接地面の面積が非接地面の面積より少いと合成
樹脂発泡体枠体への荷重がかかりすぎてよくない。If the area of the contact surface of the rubber plate is smaller than the area of the non-contact surface, too much load will be applied to the synthetic resin foam frame, which is not good.
ゴム板の突起8の高さ又は直線状溝部7の深さはゴム板
の厚みの少くとも半分以下が望ましい。The height of the protrusion 8 of the rubber plate or the depth of the linear groove 7 is desirably at least half the thickness of the rubber plate.
ゴム板の両面に溝部がある場合は片面の溝部の深さはゴ
ム板の厚みのAかそれ以下が望ましい。When there are grooves on both sides of the rubber plate, the depth of the grooves on one side is preferably equal to or less than the thickness of the rubber plate.
ゴム板の突起の高さ又は直線状溝部の深さがゴム板の半
分以上(ゴム板の両面に溝部がある場合は溝部の深さは
ゴム板の3以上)になると合成樹脂発泡体枠体への荷重
がかかりすぎてよくない。If the height of the protrusion on the rubber plate or the depth of the linear groove is more than half of the rubber plate (if the rubber plate has grooves on both sides, the depth of the groove is 3 or more of the rubber plate), the synthetic resin foam frame It is not good to put too much load on the
ゴム板の厚みは4〜12m/mが望ましく、4m/m以
下では防振効果は少く、12m/m以上では防振効果は
期待できるが、施工性その他防振台自体の重量増等の制
約があって好ましくない。The thickness of the rubber plate is preferably 4 to 12 m/m; if it is less than 4 m/m, the anti-vibration effect will be small, and if it is more than 12 m/m, the anti-vibration effect can be expected, but there are restrictions such as ease of construction and an increase in the weight of the anti-vibration table itself. There is something that I don't like.
突起の高さ並びに直線状溝部の深さは2〜8m/mで直
線状リブ部6aの幅は2〜8m/mで直線状溝部7の幅
は2〜7m/mが望ましい。The height of the protrusion and the depth of the linear groove are preferably 2 to 8 m/m, the width of the linear rib 6a is 2 to 8 m/m, and the width of the linear groove 7 is preferably 2 to 7 m/m.
直線状高リブ部6bと直線状低リブ部6Cの高さの差は
1〜2m/mが望ましい。The difference in height between the linear high rib portion 6b and the linear low rib portion 6C is preferably 1 to 2 m/m.
以上述べたように、本考案は、合成樹脂発泡体枠体2に
必要に応じて四隅補強部13を一体成形又は接着固定法
にて付加し、接地面貼着用ゴム板4a、4bを該合成樹
脂発泡体2の下面3Cに接着固定、釘打固定又は接着・
釘打固定併用法にて作られた重量物積載用防振台である
。As described above, the present invention adds the four corner reinforcing parts 13 to the synthetic resin foam frame 2 by integral molding or adhesive fixing as necessary, and attaches the rubber plates 4a and 4b for attaching the ground surface to the synthetic resin foam frame 2. Adhesive fixation, nailing fixation, or adhesive fixation to the lower surface 3C of the resin foam 2.
This is a vibration-isolating platform for loading heavy objects made using a combination of nailing and fixing methods.
第1図は従来の積載台の斜視図。
第2図は本考案の接地面全面ゴム板接着型防振台の斜視
図。
第3図は本考案のゴム板四隅接着型突堤付防振台の斜視
図。
第4図は突起材り字形ゴム板の斜視図。第5図、第7図
並びに第8図は本考案にかかる直角三角形型ゴム板の平
面図。
第6図は第5図の第9図は第8図の側面図。
第10図は本考案にかかるL字形ゴム板の平面図。
第11図は直角三角形型ゴム板4面取りの平面図。
第12図は直角三角形型ゴム板2面取りの平面図。
第13図はL字型ゴム板2面取りの平面図。
第14図は釘打法ゴム板の側面図。
第15図は釘頭内蔵型ゴム板の側面図。第16図は本考
案の四隅補強型合成樹脂発泡体枠体の斜視図。
1・・・・・・枠体、2・・・・・・合成樹脂発泡体枠
体、3a・・・・・・合成樹脂発泡体枠体の上面、3b
・・・・・・合成樹脂発泡体枠体の突堤、3C・・・・
・・合成樹脂発泡体枠体の下面、4a・・・・・・枠体
接地面全面貼着用ゴム板、4b・・・・・・四隅貼着用
ゴム板、5・・・・・・ゴム板の中間ゴムシート、6a
・・・・・・ゴム板の直線状リブ部、6b・・・・・・
ゴム板の直線状高リブ部、6C・・・・・・ゴム板の直
線状低リブ部、7・・・・・・直線状溝部、8・・・・
・・ゴム板の突起、9a・・・・・・ゴム板の接地面(
突起の表面又は直線状リブ部の表面)、9b・・・・・
・ゴム板の長方形枠体への貼着面、10・・・・・・釘
、11・・・・・・釘穴、12・・・・・・釘頭、13
・・・・・・四隅補強部。FIG. 1 is a perspective view of a conventional loading platform. FIG. 2 is a perspective view of the anti-vibration table of the present invention with a rubber plate attached to the entire ground surface. FIG. 3 is a perspective view of a vibration isolation table with a jetty with rubber plates bonded at four corners according to the present invention. FIG. 4 is a perspective view of the protrusion-shaped rubber plate. 5, 7, and 8 are plan views of a right triangular rubber plate according to the present invention. 6 is a side view of FIG. 5, and FIG. 9 is a side view of FIG. 8. FIG. 10 is a plan view of the L-shaped rubber plate according to the present invention. FIG. 11 is a plan view of a right triangular rubber plate with four chamfers. FIG. 12 is a plan view of a right triangular rubber plate with two chamfers. FIG. 13 is a plan view of an L-shaped rubber plate with two chamfers. Figure 14 is a side view of the nailing rubber plate. FIG. 15 is a side view of the rubber plate with a built-in nail head. FIG. 16 is a perspective view of the four-corner reinforced synthetic resin foam frame of the present invention. 1...Frame body, 2...Synthetic resin foam frame body, 3a...Top surface of synthetic resin foam frame body, 3b
...Synthetic resin foam frame jetty, 3C...
・・Bottom surface of synthetic resin foam frame, 4a・・・Rubber plate for attaching the entire surface of the frame body, 4b・・・・Rubber plate for attaching at the four corners, 5・・・・Rubber plate intermediate rubber sheet, 6a
...Rubber plate linear rib portion, 6b...
Linear high rib part of rubber plate, 6C... Linear low rib part of rubber plate, 7... Linear groove part, 8...
...Rubber plate protrusion, 9a...Rubber plate grounding surface (
surface of the protrusion or surface of the linear rib portion), 9b...
・Gluing surface of the rubber plate to the rectangular frame, 10...Nail, 11...Nail hole, 12...Nail head, 13
...Four corner reinforcement parts.
Claims (2)
用防振台において、前記枠体が合成樹脂発泡体からなり
該合成樹脂発泡体枠体の接地面側に少くとも片面に複数
個の突起をもち、かつ突起部面積を非突起部面積より大
きくしてなるゴム板を突起部が床面側となるように全面
又は四隅に接着固定したことを特徴とする防振台。(1) In a vibration isolating table for loading heavy objects having a frame with four right angle corners and four sides, the frame is made of synthetic resin foam, and there are a plurality of frames on at least one side on the ground side of the synthetic resin foam frame. A vibration isolating table characterized in that a rubber plate having multiple protrusions and having a larger area than the non-protrusions is adhesively fixed to the entire surface or the four corners so that the protrusions face the floor surface.
用防振台において、合成樹脂発泡体枠体の比重が0.0
5〜0.35でかつ厚さが30〜120m/mであり、
該合成樹脂発泡体枠体の下面に接着固定するゴム板の厚
みは4〜12m/mであることを特徴とする実用新案登
録請求の範囲第1項記載の防振台。(2) In a vibration isolating table for loading heavy objects with a frame consisting of four sides and four right angle corners, the specific gravity of the synthetic resin foam frame is 0.0.
5 to 0.35 and a thickness of 30 to 120 m/m,
The vibration isolating table according to claim 1, wherein the rubber plate adhesively fixed to the lower surface of the synthetic resin foam frame has a thickness of 4 to 12 m/m.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1978083446U JPS5923889Y2 (en) | 1978-06-16 | 1978-06-16 | Anti-vibration table |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1978083446U JPS5923889Y2 (en) | 1978-06-16 | 1978-06-16 | Anti-vibration table |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS551018U JPS551018U (en) | 1980-01-07 |
| JPS5923889Y2 true JPS5923889Y2 (en) | 1984-07-16 |
Family
ID=29005244
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP1978083446U Expired JPS5923889Y2 (en) | 1978-06-16 | 1978-06-16 | Anti-vibration table |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS5923889Y2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2007085533A (en) * | 2005-09-21 | 2007-04-05 | Protect:Kk | Vibration absorption plate for vibrating equipment |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS5427511Y2 (en) * | 1973-01-27 | 1979-09-06 | ||
| JPS5432136Y2 (en) * | 1974-10-30 | 1979-10-05 |
-
1978
- 1978-06-16 JP JP1978083446U patent/JPS5923889Y2/en not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS551018U (en) | 1980-01-07 |
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