TW201634842A - Seal member - Google Patents
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- TW201634842A TW201634842A TW104142064A TW104142064A TW201634842A TW 201634842 A TW201634842 A TW 201634842A TW 104142064 A TW104142064 A TW 104142064A TW 104142064 A TW104142064 A TW 104142064A TW 201634842 A TW201634842 A TW 201634842A
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- lip portion
- shaft member
- inner tube
- main lip
- sealing
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- 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
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J15/00—Sealings
- F16J15/16—Sealings between relatively-moving surfaces
- F16J15/32—Sealings between relatively-moving surfaces with elastic sealings, e.g. O-rings
- F16J15/3204—Sealings between relatively-moving surfaces with elastic sealings, e.g. O-rings with at least one lip
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Fluid-Damping Devices (AREA)
- Sealing With Elastic Sealing Lips (AREA)
- Axle Suspensions And Sidecars For Cycles (AREA)
Abstract
Description
本發明係關於密封構件。 The present invention relates to a sealing member.
例如,於前叉中,為了防止塵埃之侵入而將環狀防塵封件設於外管與內管之間。近年來,已有考慮到即使在非一般道路之越野等嚴苛使用環境下使用仍可防止塵埃等侵入前叉內部之防塵封件被開發。 For example, in the front fork, an annular dust seal is provided between the outer tube and the inner tube in order to prevent the intrusion of dust. In recent years, it has been developed to prevent dust and the like from entering the inside of the fork even when used in a severe use environment such as off-road of a general road.
做為此種防塵封件,有固定於外管且具備主唇部與副唇部之防塵封件。主唇部與副唇部係往可進退地插入外管之內管側傾斜延伸,並滑接於內管之外周。在此種防塵封件中,即使設於比副唇部靠大氣側之主唇部沒有將塵埃完全刮落,藉由以副唇部將未刮落之塵埃刮落,仍防止塵埃之侵入。此種防塵封件係揭示於例如JP2005-308204A。 As such a dustproof seal, there is a dustproof seal that is fixed to the outer tube and has a main lip and a sub-lip. The main lip and the auxiliary lip are obliquely extended toward the inner tube side of the outer tube which can be advanced and retracted, and are slidably attached to the outer circumference of the inner tube. In such a dust seal, even if the dust is completely scraped off by the main lip portion on the air side of the sub-lip portion, the dust that has not been scraped off is scraped off by the sub-lip portion, thereby preventing the intrusion of dust. Such a dustproof seal is disclosed, for example, in JP2005-308204A.
防塵封件係例如構成為於內管往外管內進入之場合,容易將附著於內管之外周之塵埃刮落。在此場合,於內管往外管內進入之場合作動流體膜變薄,反之,於內管從外管退出之場合,為易於容許作動流體之通過而作動流體膜變厚。 The dust seal is configured, for example, to allow the dust adhering to the outer circumference of the inner tube to be scraped off when the inner tube enters the outer tube. In this case, the cooperating fluid film is thinned in the field where the inner tube enters the outer tube, and conversely, when the inner tube is withdrawn from the outer tube, the fluid film is thickened to facilitate the passage of the actuating fluid.
因此,於此場合,於內管之退出行程時作動流體會通過防塵封件,雖然只有每次少量但仍被往大氣側刮落。此場合,因作動流體之流出係微量,故對前叉之機能不會產生不良影響,但仍希望防止作動流體之流出。 Therefore, in this case, the actuating fluid passes through the dustproof seal at the exit stroke of the inner tube, although it is scraped off to the atmosphere side only a small amount each time. In this case, since the flow of the actuating fluid is minute, the function of the fork is not adversely affected, but it is desirable to prevent the flow of the actuating fluid.
此外,若作動流體往大氣側被刮落,會有存在於大氣側之塵埃浸於被刮出之作動流體而牢固地附著於內管,導致讓塵埃侵入內部之可能性。 Further, when the working fluid is scraped off to the atmosphere side, the dust existing on the atmosphere side is immersed in the scraped working fluid and firmly adheres to the inner tube, which may cause dust to enter the inside.
針對上述問題,本發明係提供可阻止作動流體往外部之流出,且可防止塵埃之侵入之密封構件者。 In view of the above problems, the present invention provides a sealing member which can prevent the flow of the actuating fluid to the outside and prevent the intrusion of dust.
本發明之某一態樣之密封構件係一種密封構件,其具備:將進退自如地插入筒構件之軸構件包圍之環狀基部、設於前述基部之內周往大氣側傾斜延伸且滑接於前述軸構件之外周之環狀主唇部、於前述基部之內周並列設於前述主唇部之密封側且往大氣側傾斜延伸之環狀副唇部,前述主唇部及前述副唇部之至少一方之內周面具備從前述基部延伸之傾斜面、比前述傾斜面更往前述軸構件側突起而滑接於前述軸構件之外周之突起面。 A sealing member according to an aspect of the present invention is a sealing member comprising: an annular base portion surrounded by a shaft member that is inserted into the tubular member in a retractable manner, and is disposed on an inner circumference of the base portion and extends obliquely to the atmosphere side and is slidably coupled to An annular main lip portion on the outer circumference of the shaft member, an annular auxiliary lip portion which is disposed on the inner side of the base portion and which is disposed on the sealing side of the main lip portion and extends obliquely toward the atmosphere side, the main lip portion and the auxiliary lip portion At least one of the inner circumferential surfaces includes an inclined surface extending from the base portion, and a projection surface that protrudes toward the shaft member side from the inclined surface and is slidably attached to the outer circumference of the shaft member.
1‧‧‧密封構件 1‧‧‧ Sealing member
2‧‧‧內管 2‧‧‧Inside
2a‧‧‧滑接面 2a‧‧‧Sliding surface
2b‧‧‧滑接面 2b‧‧‧Sliding surface
2c‧‧‧滑接面 2c‧‧‧Sliding surface
3‧‧‧外管 3‧‧‧External management
3a‧‧‧凹部 3a‧‧‧ recess
4‧‧‧基部 4‧‧‧ base
4a‧‧‧本體部 4a‧‧‧ Body Department
4b‧‧‧凸緣 4b‧‧‧Flange
4c‧‧‧芯桿 4c‧‧‧core rod
5‧‧‧防塵封件 5‧‧‧Dust seals
6‧‧‧主唇部 6‧‧‧Main lip
6a‧‧‧傾斜面 6a‧‧‧Sloping surface
6b‧‧‧傾斜面 6b‧‧‧ sloped surface
7‧‧‧副唇部 7‧‧‧Deputy lip
8‧‧‧內周面 8‧‧‧ inner circumference
8a‧‧‧突起面 8a‧‧‧Face
8b‧‧‧突起面 8b‧‧‧Face
9‧‧‧流體密封件 9‧‧‧Fluid seals
10‧‧‧前叉 10‧‧‧ Front fork
11‧‧‧軸承 11‧‧‧ bearing
12‧‧‧軸承 12‧‧‧ bearing
13‧‧‧阻尼器 13‧‧‧ damper
14‧‧‧活塞桿 14‧‧‧ piston rod
15‧‧‧汽缸 15‧‧‧ cylinder
16‧‧‧懸掛彈簧 16‧‧‧ hanging spring
100‧‧‧防塵封件 100‧‧‧Dust seals
101‧‧‧主唇部 101‧‧‧Main lip
102‧‧‧副唇部 102‧‧‧Deputy lip
103‧‧‧傾斜面 103‧‧‧ sloped surface
104‧‧‧傾斜面 104‧‧‧Sloping surface
105‧‧‧傾斜面 105‧‧‧Sloping surface
106‧‧‧傾斜面 106‧‧‧Sloping surface
200‧‧‧主唇部 200‧‧‧ main lip
201‧‧‧突起面 201‧‧‧Face
300‧‧‧密封構件 300‧‧‧ Sealing members
309‧‧‧流體密封件 309‧‧‧Fluid seals
a1‧‧‧剖面角度 A1‧‧‧section angle
a2‧‧‧剖面角度 A2‧‧‧section angle
b1‧‧‧剖面角度 B1‧‧‧section angle
b2‧‧‧剖面角度 B2‧‧‧section angle
c1‧‧‧剖面角度 C1‧‧‧section angle
c2‧‧‧剖面角度 C2‧‧‧section angle
d1‧‧‧剖面角度 D1‧‧‧section angle
d2‧‧‧剖面角度 D2‧‧‧section angle
e1‧‧‧剖面角度 E1‧‧‧section angle
e2‧‧‧剖面角度 E2‧‧‧section angle
圖1係本實施形態之前叉之縱剖面圖。 Fig. 1 is a longitudinal sectional view of a front fork of the embodiment.
圖2係圖1之密封構件之擴大縱剖面圖。 Figure 2 is an enlarged longitudinal sectional view of the sealing member of Figure 1.
圖3係本實施形態之主唇部之擴大縱剖面圖。 Fig. 3 is an enlarged longitudinal sectional view showing the main lip portion of the embodiment.
圖4係本實施形態之副唇部之擴大縱剖面圖。 Fig. 4 is an enlarged longitudinal sectional view showing the auxiliary lip portion of the embodiment.
圖5係其他實施形態之主唇部之擴大縱剖面圖。 Fig. 5 is an enlarged longitudinal sectional view showing a main lip portion of another embodiment.
圖6係其他實施形態之密封構件之縱剖面圖。 Fig. 6 is a longitudinal sectional view showing a sealing member of another embodiment.
圖7係比較例之防塵封件之擴大縱剖面圖。 Fig. 7 is an enlarged longitudinal sectional view showing a dust seal of a comparative example.
以下,參照附圖說明本發明之實施形態。在不同圖面間使用的相同符號表示相同零件或對應之零件。 Hereinafter, embodiments of the present invention will be described with reference to the drawings. The same symbols used between different drawings represent the same part or corresponding part.
如圖1及圖2所示,本實施形態之密封構件1係用於前叉10。前叉10具備環狀外管3、於軸方向可移動地插入外管3之環狀內管2。密封構件1係以可進退地插入做為筒構件之外管3之內管2做為軸構件,將內管2之外周密封。密封構件1具備包圍內管2之環狀基部4、設於基部4之內周往大氣側傾斜延伸且滑接於內管2之外周之環狀主唇部6、於基部4之內周並列設於主唇部6之密封側且往主唇部6側傾斜延伸之環狀副唇部7。 As shown in FIGS. 1 and 2, the sealing member 1 of the present embodiment is used for the front fork 10. The front fork 10 includes an annular outer tube 3 and an annular inner tube 2 that is movably inserted into the outer tube 3 in the axial direction. The sealing member 1 is inserted into the inner tube 2 which is a tube member outside the tube member as a shaft member, and the outer tube 2 is sealed at the outer periphery. The sealing member 1 includes an annular base portion 4 surrounding the inner tube 2, and an annular main lip portion 6 which is provided on the inner circumference of the base portion 4 and extends obliquely to the atmosphere side and is slidably attached to the outer circumference of the inner tube 2, and is juxtaposed on the inner circumference of the base portion 4 The annular auxiliary lip portion 7 is provided on the sealing side of the main lip portion 6 and extends obliquely toward the main lip portion 6.
前叉10進一步具備環狀軸承11、12與阻尼器13。軸承11係安裝於外管3之內周而滑接於內管2之外周。軸承12係安裝於內管2之外周而滑接於外管3之內周。阻尼器13係收納於內管2及外管3內。阻尼器13具備圖1中下端安裝於外管3底部之汽缸15、可滑動地插入汽缸15內且將汽缸15內分隔為兩個壓力室之不圖示之活塞、一端連結於活塞且圖中上端安裝於內管2頂部之活塞桿14,於伸縮時發揮既定之衰減力。因此,若前叉10伸縮,阻尼器13亦會伸縮,故發揮防止前叉10之伸縮之衰減力。 此外,於汽缸15與內管2之間介裝懸掛彈簧16。前叉10係恆被懸掛彈簧16推往伸長方向。藉此,於將前叉10適用於兩輪車輛等時可將車體彈性支持。 The front fork 10 further includes annular bearings 11, 12 and a damper 13. The bearing 11 is attached to the inner circumference of the outer tube 3 and is slidably attached to the outer circumference of the inner tube 2. The bearing 12 is attached to the outer circumference of the inner tube 2 and is slidably attached to the inner circumference of the outer tube 3. The damper 13 is housed in the inner tube 2 and the outer tube 3. The damper 13 is provided with a cylinder 15 having a lower end attached to the bottom of the outer tube 3 in FIG. 1 , a piston (not shown) slidably inserted into the cylinder 15 and dividing the cylinder 15 into two pressure chambers, and one end connected to the piston and illustrated in the figure. The piston rod 14 which is attached to the top of the inner tube 2 at the upper end exerts a predetermined damping force during expansion and contraction. Therefore, if the front fork 10 expands and contracts, the damper 13 also expands and contracts, so that the damping force for preventing the expansion and contraction of the front fork 10 is exerted. Further, a suspension spring 16 is interposed between the cylinder 15 and the inner tube 2. The front fork 10 is constantly pushed by the suspension spring 16 in the direction of elongation. Thereby, the vehicle body can be elastically supported when the front fork 10 is applied to a two-wheeled vehicle or the like.
阻尼器13,亦可係將汽缸15安裝於內管2,將活塞桿14安裝於外管3。此外,前叉10,亦可係將內管2配置於下方,將外管3配置於上方。 The damper 13 may be such that the cylinder 15 is attached to the inner tube 2, and the piston rod 14 is attached to the outer tube 3. Further, in the front fork 10, the inner tube 2 may be disposed below, and the outer tube 3 may be disposed above.
密封構件1設於外管3之開口端部,於內管2進入外管3內時將附著於內管2之塵埃刮落,防止往前叉10內部之侵入。 The sealing member 1 is provided at the open end of the outer tube 3, and when the inner tube 2 enters the outer tube 3, the dust adhering to the inner tube 2 is scraped off to prevent intrusion into the inside of the front fork 10.
以下,詳細說明密封構件1之構成。 Hereinafter, the configuration of the sealing member 1 will be described in detail.
如圖2所示,基部4具備於軸方向延伸之環狀本體部4a、從本體部4a之上端往外周徑方向外方突出之環狀凸緣4b、設於本體部4a及凸緣4b內之L字狀之芯桿4c。 As shown in Fig. 2, the base portion 4 includes an annular main body portion 4a extending in the axial direction, an annular flange 4b projecting outward from the upper end of the main body portion 4a in the outer circumferential direction, and is provided in the main body portion 4a and the flange 4b. The L-shaped core rod 4c.
如圖2所示,主唇部6係從本體部4a內周之圖中上端往圖中上方亦即大氣側傾斜同時往內周側延伸,以前端滑接於內管2之外周。 此外,主唇部6之內徑比內管2之外徑小徑。藉此,可利用從彎曲狀態復原時產生之斥力,以主唇部6將內管2夾緊。 As shown in Fig. 2, the main lip portion 6 is inclined from the upper end in the inner periphery of the main body portion 4a toward the upper side in the drawing, that is, on the atmospheric side, and extends toward the inner peripheral side, and is slid to the outer circumference of the inner tube 2 at the front end. Further, the inner diameter of the main lip portion 6 is smaller than the outer diameter of the inner tube 2. Thereby, the inner tube 2 can be clamped by the main lip portion 6 by the repulsive force generated when returning from the bent state.
如圖2所示,副唇部7從本體部4a內周之主唇部6之圖中下方往大氣側傾斜同時往內周側延伸,以設於副唇部7之內周面8之後述之突起面8b滑接於內管2之外周。 As shown in Fig. 2, the sub-lip portion 7 is inclined from the lower side toward the atmospheric side in the lower side of the main lip portion 6 of the inner portion of the main body portion 4a while extending toward the inner peripheral side, so as to be provided on the inner peripheral surface 8 of the auxiliary lip portion 7, The protruding surface 8b is slidably attached to the outer circumference of the inner tube 2.
如於圖4顯示般,於內周面8設傾斜面8a與突起面8b。傾斜面8a係從基部4延伸,並以緩緩縮徑之方式往大氣側傾斜之面。突起面8b係於內周面8之前端比傾斜面8a更往內周側、亦即往內管2(軸構件) 側突起之面。突起面8b係剖面圓弧狀。 As shown in Fig. 4, an inclined surface 8a and a projection surface 8b are provided on the inner circumferential surface 8. The inclined surface 8a extends from the base portion 4 and is inclined toward the atmosphere side in a manner of gradually reducing the diameter. The protruding surface 8b is formed on the inner peripheral side of the inner peripheral surface 8 from the inclined surface 8a toward the inner peripheral side, that is, the inner tube 2 (shaft member) The side of the side protrusion. The projection surface 8b has an arc shape in cross section.
突起面8b只要是滑接於內周面8之內管2之部位,不論設於何處皆可。但比突起面8b往前端側之部分會成為在機能上不需要之部分,故突起面8b設於前端較理想。 The projection surface 8b may be any portion that is slidably attached to the inner tube 2 of the inner circumferential surface 8, regardless of where it is placed. However, the portion on the front end side of the projection surface 8b becomes a functionally unnecessary portion, and therefore the projection surface 8b is preferably provided at the front end.
突起面8b之最小內徑至少比內管2之外徑小徑。藉此,可利用從彎曲狀態復原時產生之斥力,以副唇部7將內管2夾緊。 The minimum inner diameter of the projection surface 8b is at least smaller than the outer diameter of the inner tube 2. Thereby, the inner tube 2 can be clamped by the sub-lip portion 7 by the repulsive force generated when returning from the bent state.
另外,副唇部7係於內周面8具備突起面8b,故副唇部7之彎曲量增加突起面8b之部分,隨此斥力變大而面壓變大。若面壓變大,副唇部7之夾緊力提高,對內管2之追隨性增加,可防止因開口而導致之塵埃之侵入。 Further, since the auxiliary lip portion 7 is provided with the projection surface 8b on the inner peripheral surface 8, the amount of bending of the sub-lip portion 7 is increased by the portion of the projection surface 8b, and as the repulsive force is increased, the surface pressure is increased. When the surface pressure is increased, the clamping force of the auxiliary lip portion 7 is increased, and the followability to the inner tube 2 is increased, and the intrusion of dust due to the opening can be prevented.
本實施形態,如圖2所示,於基部4與主唇部6與副唇部7之間形成剖面U字狀之空間亦即塵埃堆積部。於塵埃堆積部可堆積雖通過主唇部6但以副唇部7刮落之塵埃,藉此可防止塵埃侵入前叉10之內部。 In the present embodiment, as shown in FIG. 2, a dust depositing portion which is a space having a U-shaped cross section is formed between the base portion 4 and the main lip portion 6 and the sub-lip portion 7. The dust accumulation portion can deposit dust that has passed through the main lip portion 6 but is scraped off by the auxiliary lip portion 7, thereby preventing dust from entering the inside of the front fork 10.
此外,如圖2所示,外管3係於開口端部之內周具備凹部3a。 Moreover, as shown in FIG. 2, the outer tube 3 is provided with the recessed part 3a in the inner periphery of the opening end part.
在密封構件1中係以使凸緣4b抵接於外管3之圖中上端之方式將本體部4a壓入凹部3a內。於本體部4a及凸緣4b內設有芯桿4c,故若本體部4a被壓入外管3之凹部3a內而基部4被固定於外管3,密封構件1會牢固地固定於外管3。此外,本體部4a係牢固地緊貼於外管3之凹部3a內側,凸緣4b亦牢固地緊貼於外管3之端部,密封構件1係將外管3之內周密封。接著,於內管2插入密封構件1之內周側內管後,主唇部6與副唇部7彎曲,將內管2之外周夾緊,內管2之外周被密封。在如上述將 內管2插入密封構件1之內周側後,主唇部6與副唇部7之與內管2之間之剖面角度會成為以下之狀況。 The body portion 4a is pressed into the recess 3a in the sealing member 1 in such a manner that the flange 4b abuts against the upper end of the outer tube 3. The core rod 4c is provided in the main body portion 4a and the flange 4b. Therefore, when the main body portion 4a is pressed into the concave portion 3a of the outer tube 3 and the base portion 4 is fixed to the outer tube 3, the sealing member 1 is firmly fixed to the outer tube. 3. Further, the main body portion 4a is firmly adhered to the inner side of the concave portion 3a of the outer tube 3, and the flange 4b is also firmly adhered to the end portion of the outer tube 3, and the sealing member 1 seals the inner circumference of the outer tube 3. Next, after the inner tube 2 is inserted into the inner peripheral side inner tube of the sealing member 1, the main lip portion 6 and the sub-lip portion 7 are bent, the outer circumference of the inner tube 2 is clamped, and the outer circumference of the inner tube 2 is sealed. In the above When the inner tube 2 is inserted into the inner peripheral side of the sealing member 1, the cross-sectional angle between the main lip portion 6 and the sub-lip portion 7 and the inner tube 2 is as follows.
如圖3所示,在主唇部6係主唇部6之大氣側之傾斜面6a與主唇部6滑接之內管2外周之滑接面2a之間之剖面角度c1被設定為比主唇部6之密封側之傾斜面6b與滑接面2a之間之剖面角度c2大。 As shown in Fig. 3, the cross-sectional angle c1 between the inclined surface 6a on the atmospheric side of the main lip portion 6 of the main lip portion 6 and the sliding surface 2a on the outer circumference of the inner tube 2 to which the main lip portion 6 is slid is set to be The cross-sectional angle c2 between the inclined surface 6b on the sealing side of the main lip portion 6 and the sliding surface 2a is large.
剖面角度較大者於內管2之進入行程時面壓梯度值之絕對值會變高,故將附著於內管2外周之作動流體刮落之效果提高。因此,藉由將大氣側之剖面角度c1設定為比密封側之剖面角度c2大,可於內管2之進入行程時防止塵埃與作動流體一起從大氣側亦即外部侵入。 When the cross-sectional angle is larger, the absolute value of the surface pressure gradient value becomes higher at the entry stroke of the inner tube 2, so that the effect of scraping off the active fluid adhering to the outer circumference of the inner tube 2 is improved. Therefore, by setting the cross-sectional angle c1 on the atmospheric side to be larger than the cross-sectional angle c2 on the seal side, it is possible to prevent dust from entering the atmosphere, that is, the outside together with the actuating fluid, during the entry stroke of the inner tube 2.
如圖4所示,在副唇部7中與大氣側之內管2外周滑接之突起面8b形成為剖面圓弧狀。因圓弧離圓之中心之距離完全相等,故若剖面圓弧上之突起面8b抵接於內管2,與內管2之間之剖面角度在大氣側與密封側會成為相等。因此,可將大氣側之突起面8b與內管2外周之滑接面2b之間之剖面角度d1與密封側之突起面8b與內管2外周之滑接面2b之間之剖面角度d2之差消除或使該差極小。 As shown in Fig. 4, the projection surface 8b which is slidably attached to the outer periphery of the inner tube 2 on the atmospheric side in the auxiliary lip portion 7 is formed in a circular arc shape. Since the distance between the arc and the center of the circle is completely equal, if the projection surface 8b on the circular arc abuts against the inner tube 2, the cross-sectional angle between the arc and the inner tube 2 becomes equal on the atmospheric side and the sealing side. Therefore, the cross-sectional angle d1 between the projection surface 8b on the atmosphere side and the sliding surface 2b on the outer circumference of the inner tube 2 and the cross-sectional angle d2 between the projection surface 8b on the sealing side and the sliding surface 2b on the outer circumference of the inner tube 2 can be The difference is eliminated or the difference is minimal.
在剖面角度之差較小之場合,大氣側與密封側之突起面8b之最大面壓梯度值之絕對值之差會變小。其結果是副唇部7之突起面8b中之內管2之退出行程時之作動流體膜厚與進入行程時之作動流體膜厚之差變小。因此,於內管2之退出行程時往大氣側移動之作動流體於內管2之進入行程時返回密封側,可阻止作動流體往外部之流出。 When the difference in the cross-sectional angle is small, the difference between the absolute values of the maximum surface pressure gradient values of the convex surface 8b on the atmospheric side and the sealing side becomes small. As a result, the difference between the thickness of the active fluid and the thickness of the active fluid at the time of the exit stroke of the inner tube 2 in the projection surface 8b of the sub-lip portion 7 becomes small. Therefore, the actuating fluid moving to the atmosphere side during the exit stroke of the inner tube 2 returns to the sealing side at the entry stroke of the inner tube 2, and the flow of the actuating fluid to the outside can be prevented.
突起面8b之剖面形狀雖可採用圓弧狀以外之形狀,但藉由做成圓弧狀可使因內管2之進入而唇部彎曲反彈時產生之面壓不會集中於 一處。因此,具有不易破損且容易在大氣側與密封側使面壓梯度值之絕對值之差較小之優點。 Although the cross-sectional shape of the projection surface 8b may take a shape other than an arc shape, the surface pressure generated when the lip portion bounces and rebounds due to the entry of the inner tube 2 is not concentrated in the arc shape. one place. Therefore, there is an advantage that it is easy to break and it is easy to make the difference of the absolute value of the surface pressure gradient value small on the atmospheric side and the sealing side.
於外管3之凹部3a內密封構件1之圖中下方設有防止來自前叉內之作動流體之洩漏之流體密封件9。對於在本說明書被使用之作動流體,可採用作動油、水、水溶液、電性黏性流體、磁性黏性流體等可適用於前叉及其他阻尼器者。 A fluid seal 9 for preventing leakage of the operating fluid from the front fork is provided in the lower portion of the sealing member 1 in the recess 3a of the outer tube 3. For the actuating fluid used in this specification, a working oil, water, an aqueous solution, an electrically viscous fluid, a magnetic viscous fluid, or the like can be applied to the front fork and other dampers.
以下,針對本實施形態之密封構件1之作動與比較例一起說明。 Hereinafter, the operation of the sealing member 1 of the present embodiment will be described together with a comparative example.
圖7係比較例之防塵封件100之擴大剖面圖。防塵封件100係比較例之防塵封件,即如揭示於JP2005-308204A之防塵封件。剖面角度a1、b1係主唇部101及副唇部102之大氣側之傾斜面103、105與主唇部101及副唇部102分別滑接之做為軸構件之內管2之滑接面之間之剖面角度。剖面角度a2、b2係主唇部101及副唇部102之叉內側之傾斜面104、106與前述滑接面之間之剖面角度。在防塵封件100,為了將附著於內管2之塵埃刮落,而將剖面角度a1、b1分別設定得比剖面角度a2、b2大。 Fig. 7 is an enlarged cross-sectional view showing the dust seal 100 of the comparative example. The dustproof seal 100 is a dustproof seal of a comparative example, that is, a dustproof seal as disclosed in JP2005-308204A. The cross-sectional angles a1 and b1 are the sliding surfaces of the inner tube 2 and the inner lip portion 101 and the sub-lip portion 102 which are respectively slidably connected to the main lip portion 101 and the sub-lip portion 102 as the sliding surfaces of the inner tube 2 of the shaft member. The angle between the sections. The cross-sectional angles a2 and b2 are the cross-sectional angles between the inclined faces 104 and 106 on the inner side of the main lip portion 101 and the sub-lip portion 102 and the sliding surface. In the dust seal 100, in order to scrape off the dust adhering to the inner tube 2, the cross-sectional angles a1 and b1 are set to be larger than the cross-sectional angles a2 and b2, respectively.
若使剖面角度大,面壓梯度值之絕對值會變高。因此,在防塵封件100,可使大氣側之傾斜面103、105之面壓梯度值之絕對值比叉內側之傾斜面104、106之面壓梯度值之絕對值高。 If the section angle is made large, the absolute value of the surface pressure gradient value will become high. Therefore, in the dust seal 100, the absolute value of the surface pressure gradient value of the inclined surfaces 103 and 105 on the atmosphere side can be made higher than the absolute value of the surface pressure gradient value of the inclined surfaces 104 and 106 on the inner side of the fork.
而且,面壓梯度值之絕對值較高者,將附著於內管2外周之作動流體膜刮落之效果也會提高。 Further, if the absolute value of the surface pressure gradient value is higher, the effect of scraping off the active fluid film adhering to the outer circumference of the inner tube 2 is also improved.
亦即,在防塵封件100係於內管2進入外管3內之場合,容易將附著於內管2外周之塵埃刮落而作動流體膜會變薄。反之,於內管2 從外管3退出之場合,為易於容許作動流體之通過而作動流體膜會變厚。 That is, when the dust seal 100 is inserted into the outer tube 3, the dust adhering to the outer circumference of the inner tube 2 is easily scraped off and the fluid film is thinned. Conversely, in the inner tube 2 When the outer tube 3 is withdrawn, the fluid film becomes thicker in order to easily allow the passage of the actuating fluid.
因此,在防塵封件100,係於內管2之退出行程時作動流體通過防塵封件100後,雖為微量但仍陸續被往大氣側刮落。 Therefore, in the dust seal 100, when the fluid is passed through the dust seal 100 at the exit stroke of the inner tube 2, it is scraped off to the atmosphere side even though it is a small amount.
此外,若作動流體被往大氣側刮出,亦有存在於大氣側之塵埃浸於被刮出之作動流體,牢固地附著於內管2而允許塵埃往內部侵入之可能性。 Further, when the actuating fluid is scraped off to the atmosphere side, dust existing on the atmosphere side is immersed in the scraped working fluid, and is firmly adhered to the inner tube 2 to allow dust to enter the inside.
本實施形態之密封構件1中,因主唇部6與副唇部7之內徑比內管2之外徑小,故內管2被插入後主唇部6與副唇部7會彎曲。彎曲之主唇部6與副唇部7欲將彎曲之部分復原而有斥力產生。藉由此斥力,於主唇部6與副唇部7會有將內管2夾緊之夾緊力產生。 In the sealing member 1 of the present embodiment, since the inner diameters of the main lip portion 6 and the auxiliary lip portion 7 are smaller than the outer diameter of the inner tube 2, the main lip portion 6 and the sub-lip portion 7 are bent after the inner tube 2 is inserted. The curved main lip portion 6 and the auxiliary lip portion 7 are intended to restore the bent portion and generate a repulsive force. By this repulsive force, the main lip portion 6 and the sub-lip portion 7 have a clamping force that clamps the inner tube 2.
藉由此夾緊力,主唇部6與副唇部7會緊貼於內管2,於內管2之往外管3之進退行程時將附著於內管2之外周之塵埃刮落。 By the clamping force, the main lip portion 6 and the sub-lip portion 7 are in close contact with the inner tube 2, and the dust adhering to the outer circumference of the inner tube 2 is scraped off during the advancement and retraction stroke of the inner tube 2 to the outer tube 3.
此外,一體形成於密封構件1之流體密封件9係將附著於內管2之作動流體刮落。 Further, the fluid seal 9 integrally formed in the sealing member 1 scrapes off the active fluid adhering to the inner tube 2.
另外,副唇部7於內周面8具備突起面8b,故副唇部7之彎曲量增加突起面8b之部分,因復原而導致之斥力亦增大,副唇部7之面壓變大。其結果,可防止因副唇部7之開口而導致之塵埃侵入,將塵埃刮出之機能提高,且可使內管2之退出行程時之作動流體膜較薄,可防止作動流體往外部之流出。因此,利用密封構件1,可阻止作動流體往外部之流出,並可防止塵埃之侵入。 Further, since the auxiliary lip portion 7 is provided with the projection surface 8b on the inner peripheral surface 8, the amount of bending of the sub-lip portion 7 is increased by the portion of the projection surface 8b, and the repulsive force is increased by the restoration, and the surface pressure of the sub-lip portion 7 is increased. . As a result, the intrusion of dust due to the opening of the auxiliary lip portion 7 can be prevented, the function of scraping the dust can be improved, and the actuating fluid film can be made thinner when the inner tube 2 is withdrawn from the stroke, thereby preventing the actuating fluid from going to the outside. Flow out. Therefore, with the sealing member 1, the flow of the actuating fluid to the outside can be prevented, and the intrusion of dust can be prevented.
前叉10,可能會為了支持車輪而從橫方向有外力被輸入並因此而彎曲。結果內管2可能會相對於外管3偏心。利用於具有此種狀況 之前叉10設有密封構件1之本實施形態之構成,因於主唇部6或副唇部7形成有突起面8b,故可提高將內管2夾緊之夾緊力。因此,針對內管2之偏心,唇部亦會追隨,可防止塵埃之侵入與作動流體之流出。 The front fork 10 may be externally input from the lateral direction in order to support the wheel and thus bent. As a result, the inner tube 2 may be eccentric with respect to the outer tube 3. Used in such a situation The front fork 10 is provided with the configuration of the present embodiment of the sealing member 1. Since the main lip portion 6 or the sub-lip portion 7 is formed with the projection surface 8b, the clamping force for clamping the inner tube 2 can be improved. Therefore, in view of the eccentricity of the inner tube 2, the lip also follows, which prevents the intrusion of dust and the outflow of the actuating fluid.
因此,密封構件1極適合用於前叉10,藉由使用於前叉10可確實阻止塵埃往前叉10內之侵入與作動流體之流出。 Therefore, the sealing member 1 is extremely suitable for the front fork 10, and the use of the front fork 10 can surely prevent the intrusion of dust into the front fork 10 and the flow of the operating fluid.
然而,本實施形態之密封構件1並不限於利用於前叉,亦可利用於其他阻尼器例如四輪車用之油壓緩衝器。 However, the sealing member 1 of the present embodiment is not limited to the front fork, and may be used for other dampers such as a hydraulic damper for a four-wheeled vehicle.
此外,在本實施形態雖僅於副唇部7設有突起面8b,但亦可如於圖5顯示般,取代副唇部7而於主唇部6設有與突起面8b同樣之突起面201,此外,亦可於主唇部6與副唇部7之雙方分別設有突起面8b、201。 Further, in the present embodiment, the protrusion surface 8b is provided only in the sub-lip portion 7, but the main lip portion 6 may be provided with the same protrusion surface as the protrusion surface 8b instead of the sub-lip portion 7 as shown in Fig. 5 . 201. Further, protrusion surfaces 8b and 201 may be provided on both the main lip portion 6 and the sub-lip portion 7, respectively.
如圖5所示,在於主唇部200設有突起面201之場合亦與副唇部7之場合同樣地,可發揮使面壓向上、防止因開口而導致之塵埃之進入之效果。 As shown in Fig. 5, in the case where the main lip portion 200 is provided with the projection surface 201, similarly to the case of the sub-lip portion 7, the surface pressure can be increased to prevent the entry of dust due to the opening.
此外於此場合亦可使大氣側之突起面201與內管2外周之滑接面2c之間之剖面角度e1與密封側之突起面201與滑接面2c之間之剖面角度e2之差極小。因此,可減少大氣側與密封側之作動流體膜厚之差,可發揮阻止作動流體往外部之流出之效果。 Further, in this case, the difference between the cross-sectional angle e1 between the projection surface 201 on the atmosphere side and the sliding surface 2c on the outer circumference of the inner tube 2 and the cross-sectional angle e2 between the projection surface 201 and the sliding surface 2c on the seal side may be extremely small. . Therefore, the difference in the thickness of the active fluid film between the atmosphere side and the sealing side can be reduced, and the effect of preventing the flow of the actuating fluid to the outside can be exhibited.
此外,亦可如圖6所示,於密封構件300除了防塵封件5以外還設有流體密封件309。流體密封件309係環狀,於外周側設槽部,藉由於該槽部嵌入環狀環帶彈簧,提高流體密封件309之夾緊力。 Further, as shown in FIG. 6, a fluid seal 309 may be provided in the sealing member 300 in addition to the dust seal 5. The fluid seal 309 is annular, and a groove portion is provided on the outer peripheral side. The groove portion is fitted into the annular ring spring to increase the clamping force of the fluid seal 309.
如圖6所示,在於密封構件300之基部4內周之主唇部6之相反側設置流體密封件309之場合,不但可以一個密封構件300將作動流體 與塵埃之雙方密封,且組裝時只要組裝密封構件300即可。因此,可省略將流體密封件309與防塵封件5分別安裝於外管3之開口端部之麻煩。此外,流體密封件309只要是一般被使用者即可,並不特別限定為於圖6顯示之本實施形態之流體密封件309之形狀。 As shown in FIG. 6, in the case where the fluid seal 309 is provided on the opposite side of the main lip portion 6 on the inner circumference of the base portion 4 of the sealing member 300, not only one sealing member 300 can actuate the fluid It is sealed with both sides of the dust, and it is only necessary to assemble the sealing member 300 at the time of assembly. Therefore, the trouble of attaching the fluid seal 309 and the dust seal 5 to the open end of the outer tube 3 can be omitted. Further, the fluid seal 309 is not particularly limited to the shape of the fluid seal 309 of the present embodiment shown in FIG. 6 as long as it is generally used by a user.
以上,雖已說明本發明之實施形態,但上述實施形態只是顯示本發明之適用例之一部分,並不是為了將本發明之技術範圍限定於上述實施形態之具體構成。 The embodiment of the present invention has been described above, but the above embodiment is only a part of the application example of the present invention, and is not intended to limit the technical scope of the present invention to the specific configuration of the above embodiment.
本案係基於2014年12月22日於日本國特許廳提出申請之特願2014-258223主張優先權,此申請之所有內容係藉由參照而加入本說明書。 The present application claims priority based on Japanese Patent Application No. 2014-258223, filed on Dec. 22, 2011, the entire entire entire entire entire entire entire entire content
1‧‧‧密封構件 1‧‧‧ Sealing member
2‧‧‧內管 2‧‧‧Inside
3‧‧‧外管 3‧‧‧External management
10‧‧‧前叉 10‧‧‧ Front fork
11‧‧‧軸承 11‧‧‧ bearing
12‧‧‧軸承 12‧‧‧ bearing
13‧‧‧阻尼器 13‧‧‧ damper
14‧‧‧活塞桿 14‧‧‧ piston rod
15‧‧‧汽缸 15‧‧‧ cylinder
16‧‧‧懸掛彈簧 16‧‧‧ hanging spring
Claims (6)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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JP2014258223A JP6408897B2 (en) | 2014-12-22 | 2014-12-22 | Seal member |
Publications (2)
Publication Number | Publication Date |
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TW201634842A true TW201634842A (en) | 2016-10-01 |
TWI606201B TWI606201B (en) | 2017-11-21 |
Family
ID=56150194
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Application Number | Title | Priority Date | Filing Date |
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TW104142064A TWI606201B (en) | 2014-12-22 | 2015-12-15 | Sealing member |
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JP (1) | JP6408897B2 (en) |
CN (1) | CN107110367A (en) |
TW (1) | TWI606201B (en) |
WO (1) | WO2016104164A1 (en) |
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DE102015105737A1 (en) | 2015-04-15 | 2016-10-20 | Carl Freudenberg Kg | scraper |
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JP2547377Y2 (en) * | 1990-09-12 | 1997-09-10 | 株式会社ショーワ | Dust seal structure of inverted front fork |
JP4743380B2 (en) * | 2004-03-26 | 2011-08-10 | Nok株式会社 | Oil seal |
JP5209940B2 (en) * | 2007-11-13 | 2013-06-12 | カヤバ工業株式会社 | High friction fluid seal and shock absorber |
JP4997149B2 (en) * | 2008-03-07 | 2012-08-08 | カヤバ工業株式会社 | Shock absorber |
TR201806594T4 (en) * | 2009-08-28 | 2018-06-21 | Freudenberg Carl Kg | Sealing arrangement and its use. |
DE102011102477A1 (en) * | 2011-05-24 | 2012-11-29 | Blohm + Voss Industries Gmbh | seal |
JP5771118B2 (en) * | 2011-10-28 | 2015-08-26 | カヤバ工業株式会社 | SEALING DEVICE AND SUSPENSION DEVICE PROVIDED WITH THIS SEALING DEVICE |
JP6108527B2 (en) * | 2013-02-28 | 2017-04-05 | Kyb株式会社 | Seal member and front fork provided with seal member |
-
2014
- 2014-12-22 JP JP2014258223A patent/JP6408897B2/en active Active
-
2015
- 2015-12-10 CN CN201580069018.XA patent/CN107110367A/en active Pending
- 2015-12-10 WO PCT/JP2015/084642 patent/WO2016104164A1/en active Application Filing
- 2015-12-15 TW TW104142064A patent/TWI606201B/en not_active IP Right Cessation
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JP6408897B2 (en) | 2018-10-17 |
TWI606201B (en) | 2017-11-21 |
WO2016104164A1 (en) | 2016-06-30 |
JP2016118251A (en) | 2016-06-30 |
CN107110367A (en) | 2017-08-29 |
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