JPS5813240A - Spiral spring with removing vibration effect - Google Patents
Spiral spring with removing vibration effectInfo
- Publication number
- JPS5813240A JPS5813240A JP56109473A JP10947381A JPS5813240A JP S5813240 A JPS5813240 A JP S5813240A JP 56109473 A JP56109473 A JP 56109473A JP 10947381 A JP10947381 A JP 10947381A JP S5813240 A JPS5813240 A JP S5813240A
- Authority
- JP
- Japan
- Prior art keywords
- ring part
- intermediate connection
- inner ring
- outer ring
- connection part
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62M—RIDER PROPULSION OF WHEELED VEHICLES OR SLEDGES; POWERED PROPULSION OF SLEDGES OR SINGLE-TRACK CYCLES; TRANSMISSIONS SPECIALLY ADAPTED FOR SUCH VEHICLES
- B62M7/00—Motorcycles characterised by position of motor or engine
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60K—ARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
- B60K5/00—Arrangement or mounting of internal-combustion or jet-propulsion units
- B60K5/12—Arrangement of engine supports
- B60K5/1208—Resilient supports
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16F—SPRINGS; SHOCK-ABSORBERS; MEANS FOR DAMPING VIBRATION
- F16F1/00—Springs
- F16F1/02—Springs made of steel or other material having low internal friction; Wound, torsion, leaf, cup, ring or the like springs, the material of the spring not being relevant
- F16F1/04—Wound springs
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- General Engineering & Computer Science (AREA)
- Transportation (AREA)
- Vibration Prevention Devices (AREA)
- Wire Processing (AREA)
Abstract
Description
【発明の詳細な説明】
ヒO発明線、大径直円筒渦巻き状KI#lき付けた外輪
部と小径直円筒渦巻素状に巻き付は良内輪部とを傾斜円
筒渦巻素状に巻き付けた中間接続部に一連一体に接続さ
せて、一連の弾性強靭金属線にて構成された除振渦巻奄
スプリングの除振効力を荷重負荷時にも正常に保たせる
ことを目□的とすゐ大径直円部員IIk素状に41!付
けた外輪部(1)と小径直円筒渦巻き状に巻自付けた内
輪部(2)とを傾斜円筒渦巻1状に巻龜付けた中間接続
部(3)にて一連一体に接続させて、渦巻1スプリング
体(4:が、一連の鋼線等の弾性強靭金属19(51K
て構成されて成る除振渦巻−スプリングO改JLK係〕
、その外輪部Qlと内輪部(至)及び中間接続部(至)
は、相互偏心して接続されて成る仁とを41像とする4
ので、その夾施態様として、前記外輪部(1)0両側に
1中間接続部(3)にて内輪部(2)p(2)を一連一
体に接続させていて、その外輪部(1)、内輪部(21
m (11及び中間接続部131 e +33の相互偏
心状、その−側外周面史、突#空及びり一空を同一平面
上に引揃えて配置することKよつそ構成され、前記外輪
部(1)の−儒k。[Detailed description of the invention] The invention line is an intermediate part in which the outer ring part is wrapped around a large diameter right cylindrical spiral KI#l and the inner ring part is wrapped around a small diameter right cylindrical spiral element. The purpose is to maintain the vibration isolating effect of the vibration isolating spiral spring, which is made of a series of elastic and strong metal wires, even when a load is applied, by connecting them in a series to the connection part. Member IIk is 41! The attached outer ring part (1) and the inner ring part (2), which is wound into a small diameter right cylindrical spiral shape, are connected in series at an intermediate connecting part (3) which is wound into an inclined cylindrical spiral shape. Spiral 1 spring body (4: is a series of elastic strong metal 19 (51K) such as steel wire
Vibration-isolating spiral consisting of - Spring O modified JLK]
, its outer ring part Ql, inner ring part (to), and intermediate connection part (to)
The 41 image is 41, which is connected to each other eccentrically.
Therefore, as a further implementation, the inner ring part (2) p(2) is integrally connected to both sides of the outer ring part (1) by one intermediate connection part (3), and the outer ring part (1) , inner ring part (21
m (11 and the intermediate connecting portion 131 1) - Confucian k.
中間接続部(3)にて内輪部(2)を一連一体に接続さ
せていて、その外輪部(!1、内輪部(2+及び中間接
続部(87のg、、、、、、。The inner ring part (2) is connected in series at the intermediate connection part (3), and the outer ring part (!1), the inner ring part (2+), and the intermediate connection part (g of 87).
相互偏心は、その←側外周面(1)#密#すを同一平面
上に引揃えて配置することによって構成され、前記外輪
部(11の両側に、中間接続部(3)Kで内輪部(2)
#(2)を一連一体に接続させていて、その外輪部(1
)、内輪部(3しく自)及び中間接続部(33# 13
3の相互偏心状、外輪@ (1) 、内輪部(111−
(2) 及ヒ中間接続部aI−18) ノ各中心軸m
(As−4J (da−tJ 1ttU (4m−4
Jを相互偏心させて構成され、會たは一前記外輪部(1
)0シ儒に、中間接続部(3)kて内輪部(2)を一連
一体に接続させていて、その外輪部(1)、内輪部(2
)及び中間接続部(3)の相互偏心状、その外輪部(I
I、内輪部(創及び中間接続部−)の相互偏心状、外輪
部(1)、内輪部(2)及び中間接続部(830各中心
軸II (at 41) (j、−jρ及び(41
−4−を相互偏心させて構成されて成るものである。Mutual eccentricity is constructed by arranging the ← side outer peripheral surfaces (1) on the same plane. (2)
#(2) are connected in a series, and the outer ring part (1
), inner ring part (3 pieces) and intermediate connection part (33 # 13
3 mutual eccentricity, outer ring @ (1), inner ring part (111-
(2) Intermediate connection part aI-18) Each central axis m
(As-4J (da-tJ 1ttU (4m-4
J are made eccentric with respect to each other, and the outer ring portion (1
) 0, the inner ring part (2) is connected as one body through the intermediate connection part (3), and the outer ring part (1) and inner ring part (2) are connected as one body.
) and the mutual eccentricity of the intermediate connection part (3), its outer ring part (I
I, mutual eccentricity of the inner ring part (wound and intermediate connection part -), outer ring part (1), inner ring part (2) and intermediate connection part (830 each central axis II (at 41) (j, -jρ and (41
-4- are mutually eccentric.
図面Kj?いて、#S)は機械部分、(9」は筒部、(
ト)は負荷を示す。Drawing Kj? , #S) is the mechanical part, (9" is the cylinder part, (
) indicates the load.
この発明の除振渦巻自スプリング紘、第参図、第tWA
s第74図、第1f図のように振動を発生する駆動軸(
71K s内輪部(3)を係着し、外輪部(1)を機械
部分(111に設けられた筒部悸)内に嵌装させて用い
るものである。Vibration-isolating spiral self-spring of this invention, cf. fig. tWA
s As shown in Figure 74 and Figure 1F, the drive shaft that generates vibration (
71Ks The inner ring part (3) is engaged and the outer ring part (1) is fitted into the mechanical part (cylindrical part provided at 111).
この場合に、筒部(−に、第参図、第を図、第1番図、
第11図のように、負荷(至)が掛ると、偏心し喪外輪
部と中間接続部と社圧迫されて、第1図、第1O図、第
1j図、絡に図のように1除振渦巻きスプリングを正常
の大径直円筒渦巻き状に巻き付けた外輪部上小径直円筒
渦巻き状に巻き付けた内輪部とを傾斜円1IIll&巻
自状に巻自付けた中間接続部に一連一体に接続させて、
一連の弾性強靭金属線にて構成させて、そ倹峰
Ial!l効果を発揮させることができて頗る有用で6
!。In this case, the cylindrical part (-, Fig. 1, Fig. 1,
As shown in Fig. 11, when a load is applied, it becomes eccentric and compresses the outer ring part and the intermediate connection part, causing the circuits in Fig. 1, Fig. 1O, Fig. 1j, and The outer ring part of a normal large-diameter right cylindrical spiral wound spiral spring, and the inner ring part wound in a small diameter right cylindrical spiral are connected in series to an intermediate connecting part which is wound in an inclined circle 1IIll & self-winding shape. ,
Constructed from a series of elastic and strong metal wires, it is extremely durable! It is very useful because it can bring out the l effect.
! .
チェーンソー、オートバイ略の振動を発生する振動機体
に連結したハンドルの如き支持体を、筒状−持体にて重
金して握持する場合に支持体の振動を曽状握持体に伝達
させることを防止させ為えめに大径直円筒―巻會状に巻
き付けた外輪部と小径直円筒渦巻状に巻き付妙良内輪部
とを傾斜円筒mI#き状に巻自付は友中間!1綬部に一
連一体に接続させて、一連の弾性強靭金属線にて構成さ
せることは先行特願昭14−101111号除振構造体
において開発されてい為。To transmit vibrations of the support body to a cylindrical grip body when a support body such as a handle connected to a vibrating machine that generates vibrations such as a chainsaw or a motorcycle is gripped with a heavy weight using a cylindrical grip body. In order to prevent this, the outer ring is wrapped around a large-diameter right cylindrical cylinder, and the inner ring is wound around a small-diameter right cylindrical spiral, and the inner ring is wound into an inclined cylinder. The method of connecting a series of elastic and strong metal wires to one ribbon part was developed in the earlier patent application No. 101111/1989 for a vibration isolating structure.
こO場合には、筒状伽持体紘単にこれを纏持するだけで
あるので、そO伽持体には強度の負荷が加えられゐこと
がない。従ってその除振榊造体社その形態が変動される
ことなく正常を保って、その除振効果に変動を来すこと
がない。。In this case, since the cylindrical holder is simply held around the cylindrical holder, no heavy load is applied to the cylindrical holder. Therefore, the form of the anti-vibration Sakaki structure remains normal without being changed, and there is no change in the anti-vibration effect. .
しかし、ヒれを機械部分勢の高い負荷の狡動があるもの
に使用すると、その負荷によってスプリング体に変彫を
生じて除振効果が着・しく減退す為不具合、・1
を生ず為ことにな養火点がToゐ。However, if the fin is used in a device that is subjected to a high mechanical force load, the load will cause irregularities in the spring body and the vibration isolation effect will deteriorate, resulting in problems. In particular, the ignition point is Toi.
川
これに対して、仁O発WFi仁の先行特願発明の欠点を
除いて高い負荷が114ゐと、その負荷をスプリング体
に及ぼして、その偏心を正常態にして、その負荷の下に
おいて亀正富有効な除振効果を奏させたもので、仁の発
明によれば、筒部(illK負荷が#!4為と、偏心し
良外輪部と中間接続部とは圧迫されて、除振渦巻きスプ
リングを正常の大径直円渦巻き状Kil自付けた外輪部
と小径直円筒渦巻き状に巻龜付叶え内輪部とを傾斜円筒
渦巻き状に巻き付は喪中間接続部に一連一体に接続させ
て、一連の弾性強靭金属11にて構成させて、その除振
効果を発揮させゐことかで自て頗る有用であゐ。On the other hand, the high load is 114゜, excluding the drawbacks of WFi Jin's prior patent application, and by applying that load to the spring body, normalizing its eccentricity, and under that load. Masatomi Kame has an effective vibration isolation effect.According to Jin's invention, due to the cylindrical part (illK load being #!4), the outer ring part and the intermediate connection part are compressed due to eccentricity, resulting in vibration isolation. The spiral spring has a normal large-diameter right-circular spiral-shaped outer ring, and a small-diameter right-cylindrical spiral-shaped inner ring, which is wound into an inclined cylindrical spiral, and is connected to the intermediate connection part in a series. It is extremely useful because it is constructed of a series of elastic and strong metals 11 and exhibits its vibration isolation effect.
第11[この発明の一実施例の正面図、第1Eは1・・
1
その側面図1.第J =(”l$、、第1図l−11m
断面図、第参図□、第1図はその使用状1iII0説明
図、第1図紘弛の実施例の正面図、第7図はその側面図
、第1@は第1図m−xyta断面図、第を図、第1O
Eはその使用状態01!−図、第1/図は別OII!施
例の正面図、第1J@はその側面図、第1J図は第11
図1−1線断面図、第141−図、第1j図はその使用
状態の説明図、第14図れ働の実施例の正面図、第17
図社その側面図、第11@紘第ia ml l/−W
II断面図、第11図、第−図紘その使用□
状態の説明図、第3図、第一図は、従来−造の側面図を
示す。
図中、同一符号は同一部分または均勢部分を示し、(1
)は外輪部、(2)は内輪部、(3)は中間接続部、(
4Iは渦巻きスプリング体、(5)は弾性強靭金属線を
示す。
発 明 者 堀 政
樹第1図 第2図
第3111
11410
第5図
116図 第7図
第8図
!
qWA
第10図
II // Im g 12図■
第23図
第14■
第1!; II
第′C図 第17゜
■
第18図
秦Iフ 凶
□□□□−−−コ
第20図
第21 g11th [Front view of one embodiment of this invention, 1E is 1...
1 Its side view 1. No. J = (“l$,, Fig. 1 l-11m
Cross-sectional view, Figure □, Figure 1 is an explanatory diagram of its usage 1iIII0, Figure 1 is a front view of the embodiment of Hiroyuki, Figure 7 is its side view, and Figure 1 @ is the m-xyta cross section of Figure 1. Figure, Figure 1, 1st O
E is its usage status 01! -Figure, 1st/Figure is a separate OII! The front view of the example, the 1st J@ is its side view, and the 1st J is the 11th
Figure 1-1 is a sectional view taken along the line, Figure 141-, Figure 1J is an explanatory diagram of its usage state, Figure 14 is a front view of an embodiment of the working example, Figure 17 is
Zusha side view, 11th @Hirodai ia ml l/-W
II sectional view, Fig. 11, Fig. 11, explanatory view of the state of use, Fig. 3, and Fig. 1 show side views of conventional construction. In the figures, the same reference numerals indicate the same parts or balanced parts, (1
) is the outer ring part, (2) is the inner ring part, (3) is the intermediate connection part, (
4I is a spiral spring body, and (5) is an elastic strong metal wire. Inventor Masa Hori
Tree Figure 1 Figure 2 Figure 2 3111 11410 Figure 5 Figure 116 Figure 7 Figure 8! qWA Figure 10 II // Im g Figure 12 ■ Figure 23 Figure 14 ■ 1st! ; II Fig.'C Fig. 17゜■ Fig. 18 Qin Ifu ----ko Fig. 20 Fig. 21 g
Claims (2)
部(1)と、小僅直円曽渦II自状Ell自付けえ内輪
部(l七を傾斜円筒渦IIk自状KIIIIき付けた中
間接続部(御にで一連一体に接続させて、渦4Iきスプ
リング体(4が、一連の鋼曽勢の弾性強靭金属線(51
Kで構成されていて、その外輪部(1)と内輪部(至)
及び中間接続部(8) i 、相互偏心して接続されて
成ゐことを特徴とする除振渦**スプリング。(1), Great attack right circular vortex ** KIIh11! The attaching outer ring part (1) and the intermediate connecting part (1) with a small straight circular spiral II self-shaped Ell self-attaching inner ring part (l7 attached to an inclined cylindrical vortex II k self-shaped KIII) The vortex 4I spring body (4 is a series of steel spring elastic strong metal wires (51
K, its outer ring part (1) and inner ring part (to)
and an intermediate connection part (8) i, a vibration isolation vortex** spring characterized in that they are connected eccentrically to each other.
内輪部a1#(2)を一連一体に接続させていて、その
外輪部(1■、内輪部Lll a ’(1り及び中間接
続部(3)#(8]の相互偏心は、そ〇−儒外周面ψ、
窒#(2)及び告#轡を同一平面上に引揃えて配置する
仁とによりて構成されて自スプリング。 (81,前記外輪部(1)の−側に、中間接続部(8)
Kで内輪部(諺)を一連一体に!I続させていて、その
外輪部(1)、内輪部(■及び中間!I絖部侭)の相互
偏心は、その−儒囲第1項記載の除振渦巻きスプリング
。 (4,前記外輪部(1)の両側に1中間接続部(8)K
て内輪部暢) # (il)を一連一体に接続させてい
て、そO外輪部(1)、内輪部(21a (!l及び中
間接続部−)#(至)O相互偏心は、外輪部(1)、内
輪部(21−($1及び中間接続部(8)−(3)の各
中心軸曽(’l ’D s (4,j、)及び(4
,−≦ρを相互偏心させて構成されて成る特許請求の範
@第1項記載の除振渦巻きスプリング。 俤:、前記外輪部(110−側に、中間接続部(3)に
て内輪部(lを一連一体に接続させていて、その外輪部
(農)、内輪部(2)及び中間接続部(3)の相互偏心
状、その外輪部(11,内輪部(2)及び中間接続部(
段の相互偏心状、外輪部(111内翰部(2)及び中間
接続部(3]の各中心軸II(41−As) C4m
−48>及び(4,−4,)を相互偏心させて構成され
て成る特許請求の範囲第1項記載の除振渦巻龜スプリン
グ。(2), the inner ring part a1#(2) is integrally connected to both sides of the outer ring part (υ) at the intermediate connection part (J), and the outer ring part (1■, the inner ring part Lll a'(1 The mutual eccentricity of the intermediate connection parts (3) and #(8) is determined by the outer circumferential surface ψ,
The self-spring is composed of a spring plate (2) and a plate which aligns and arranges the plates on the same plane. (81, On the - side of the outer ring part (1), there is an intermediate connection part (8)
Use K to connect the inner ring part (proverb)! The vibration-absorbing spiral spring described in item 1 of the above article is a vibration-isolating spiral spring that is connected to the outer ring part (1) and the inner ring part (■ and the middle ring part). (4, 1 intermediate connection part (8) K on both sides of the outer ring part (1)
The outer ring part (1) and the inner ring part (21a (!l and intermediate connection part -) # (to) O are mutually eccentric. (1), inner ring part (21-($1) and intermediate connection part (8)-(3) each center axis so ('l'D s (4,j,) and (4
, -≦ρ, are mutually eccentric.俤: The inner ring part (l) is connected to the outer ring part (110- side) in series at the intermediate connection part (3), and the outer ring part (110-), the inner ring part (2) and the intermediate connection part ( 3), its outer ring part (11), inner ring part (2) and intermediate connection part (
Mutual eccentricity of stages, each central axis II (41-As) of the outer ring part (111 inner ring part (2) and intermediate connection part (3)) C4m
-48> and (4, -4,) eccentrically relative to each other.
Priority Applications (7)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP56109473A JPS5813240A (en) | 1981-07-15 | 1981-07-15 | Spiral spring with removing vibration effect |
| SE8107372A SE8107372L (en) | 1980-12-27 | 1981-12-09 | VIBRATION DUMPED POWER TRANSMISSION DEVICE |
| FR8123454A FR2497158A1 (en) | 1980-12-27 | 1981-12-15 | POWER TRANSMITTING DEVICE WITH DAMPING VIBRATIONS |
| GB8138156A GB2094244B (en) | 1980-12-27 | 1981-12-17 | Vibration-damped power transmission device |
| US06/331,996 US4504035A (en) | 1980-12-27 | 1981-12-18 | Vibration-damped power transmission device |
| DE19813150732 DE3150732A1 (en) | 1980-12-27 | 1981-12-22 | VIBRATION DAMPED POWER TRANSMISSION DEVICE |
| CA000393171A CA1168271A (en) | 1980-12-27 | 1981-12-23 | Vibration-damped power transmission device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP56109473A JPS5813240A (en) | 1981-07-15 | 1981-07-15 | Spiral spring with removing vibration effect |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPS5813240A true JPS5813240A (en) | 1983-01-25 |
Family
ID=14511121
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP56109473A Pending JPS5813240A (en) | 1980-12-27 | 1981-07-15 | Spiral spring with removing vibration effect |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS5813240A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4504035A (en) * | 1980-12-27 | 1985-03-12 | Seiko Giken Kabushiki Kaisha | Vibration-damped power transmission device |
| JP2007196836A (en) * | 2006-01-26 | 2007-08-09 | Rhythm Corp | Spring for check valve |
| CN102889326A (en) * | 2012-10-15 | 2013-01-23 | 安徽江淮汽车股份有限公司 | Spiral spring without parallel ring |
-
1981
- 1981-07-15 JP JP56109473A patent/JPS5813240A/en active Pending
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4504035A (en) * | 1980-12-27 | 1985-03-12 | Seiko Giken Kabushiki Kaisha | Vibration-damped power transmission device |
| JP2007196836A (en) * | 2006-01-26 | 2007-08-09 | Rhythm Corp | Spring for check valve |
| CN102889326A (en) * | 2012-10-15 | 2013-01-23 | 安徽江淮汽车股份有限公司 | Spiral spring without parallel ring |
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