NZ207460A - Vibration damper:damping in both stroke directions separately adjustable - Google Patents
Vibration damper:damping in both stroke directions separately adjustableInfo
- Publication number
- NZ207460A NZ207460A NZ207460A NZ20746084A NZ207460A NZ 207460 A NZ207460 A NZ 207460A NZ 207460 A NZ207460 A NZ 207460A NZ 20746084 A NZ20746084 A NZ 20746084A NZ 207460 A NZ207460 A NZ 207460A
- Authority
- NZ
- New Zealand
- Prior art keywords
- passage
- damper
- chambers
- piston
- shaft
- Prior art date
Links
Landscapes
- Fluid-Damping Devices (AREA)
Description
207460
r<
■w
Priority Dats(s): ... £&\ /.?.
Complete Specification Filed:
J'"'.'".""' i'5 DEC 1986
Publication Date: • •
P.O. Journal, No:
*t2. PATENT
OFFKS
% - 9 MAR "
Patents Form No. 5
PATENTS ACT 1953
Number Dated
©
COMPLETE SPECIFICATION A VIBRATION DAMPER
Ijm DONALD MAXWELL CULLEY, an Australian citizen of Shrapnell Street, Buderim, Queensland, 4556, Australia do hereby declare the invention for which I/&K pray that a Patent may be granted to me/)«. and the method by which it is to be performed, to be particularly described in and by the following statement:
' ' * (followed by page la)
...V,.-
O
2 07 4 6 Of
— 1 a —
BACKGROUND OF THE INVENTION ( 1) Field of the Invention
This invention relates to a vibration damper 5 adapted to control the vibration between two members. The invention is particularly suitable as, but not limited to, a vibration damper for vehicle seats or the like.
(2) Brief Description of the Prior Art 10 The vibrations transmitted to a vehicle operator via his seat are a major contributor to operator fatigue. This is particularly so in long distance transport vehicles, farm and earth-moving machinery, and power boats.
To combat this problem, such vehicles are now generally fitted with sprung seats, the seats having adjustable dampers to damp the vibrations.
While these seats are an improvement, they are not totally satisfactory as the dampers cannot be "tuned" j
or accurately set to suit their particular applicat- j ions and they generally require an external reservoir j for the oil employed as the damping fluid or medium.
SUMMARY OF THE PRESENT INVENTION It is an object of the present invention to 25 provide a vibration damper which does not require an ^ external oil reservoir.
It is a preferred object to provide a damper where the degree of damping in both directions can be independently controlled.
It is a further preferred object to provide '
a damper which can be readily adjusted by means of |
external controls. i
It is a still further preferred object to !
provide a damper which can be easily assembled and ]
maintained.
*0 -•
i a
207460
Other preferred objects of the present invention will become apparent from the following description.
In one aspect the present invention resides in a vibration damper including:
a damper body, connectable to a first member; a closed cylinder in the body;
a piston means, movable in the cylinder,
dividing the cylinder into two variable volume chamoers, and having a piston rod extending from the body, connectable to a second member;
two chambers and provided with respective one-way valve means to provide unidirectional flow, in opposite directions, of the damping fluid between the chambers, each one-way valve means including a valve seat in its respective passage and a ball engageable with the valve seat to close the passage, the ball being urged into engagement with the valve seat by spring means or by the pressure of the damping fluid in the passage upstream of the ball; and in each passage to control the flow of the damping fluid through the passages and thereby control the degree of damping of the piston means in each direction comprising a shaft rotatablv mounted in the body, means to rotate the shaft, and a valve plug on the snaft aligned with the passage, the plug being of reduced diameter and eccentric to the shaft and so arranged that as the shaft is rotated, the effective cross-sectional area of the passage is selectively increased or decreased.
a pair fluid passages interconnecting the independently adjustable control valve means
■>. <
V
207460
The body may be mounted on a fixed frame or support and the piston rod connected to a movable member, or vice versa, or the body and piston rod may be connected to a pair of relatively movable members.
Preferably the valves are adjustable to allow 10 0% to 100% in each direction.
G
BRIEF DESCRIPTION OF THE VIEWS OF THE DRAWINGS To enable the invention to be fully understood, a preferred embodiment will now be described with reference to the accompanying drawings, in which:
FIG. 1 is a front view of a form of damper not of the invention but which is descrioed to assist understanding thereor, parts being broken away for clarity;
FIG. 2 is a sectional plan view taken on line 2-2 in FIG. 1;
FIG. 3 is a sectional side view of the preferred form of damper in accordance with the present invention; and
FIG. 4 is a sectional ena view of one of the control valves of the preferred form of damper of the invention taken on line 4-4 in FIG. 3
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to FIGS. 1 and 2, the damper shown therein has a rectangular base plate 10 provided with mounting holes 11 adjacent each corner. h circular outer cylinder 12, forming the damper body, is mounted on the base plate 10 and welded thereto to close its lower end. A circular inner cylinder 13, of reduced diameter, is similarly mounted on the base plate 10 and the annular space 14 formed between the two cylinders forms a reservoir tor the oil used as the damping fluid.
The upper end of the annular space is closed by an annular plate 15 sealably secured to the upper
O
r*\ is
\
V
207460
ends of the two cyliners 12, 13- A cover plate 16, ha3 a central bush 17 and an annular flange 18, is secured to the annular plate 15 by studs 19- A central bore 20 is provided in the bush 17, and fitted with a 5 pair of neoprene seals 21 to sealably engage the piston rod 22 of a piston 23 slidably movable in the inner cylinder 13, dividing the latter into upper and lower •01 variable volume chambers 24, 25 respectively.
A pair of neoprene piston rings 26 seal the 10 piston 23 to the inner wall of the inner cylinder.
A pair of fluid passages 27, 28 are provided adjacent the inner cylinder 13, being formed by square section tubes closed by the base plate 10 and annular plate 15. Fluid conduits 29, 30 connect the lower 15 chamber 25 to the passages 27, 28 respectively, while conduits 31, 32 connect the upper chamber 24 to the passages.
A one-way valve 33, having a spring loaded ball 34 and valve seat 35, allows the oil to pass from 20 the lower chamber 25, through fluid passage 27, to the upper chamber 24 when the piston 23 moves down the inner cylinder. A similar valve 36, with ball 37 and valve seat 38, allows the oil to flow from the upper chamber 2*1 to the lower chamber 25 via passage 28, the valves 25 33, 36 preventing flow of the oil in the opposite direction .
The flow of oil through the passages 27, 28 and thereby the damping applied to a body connected to the piston rod 22, is controlled by respective control 30 valves 39, 40.
Referring to the control valve 39, a rectangular hole is formed in the outer side wall of the passage 27 to slidably (and sealably) receive a valve block 41 which is movable transversely across the passage 27 to 35 vary the effective cross-sectional area of the passage.
207460
The block 41 has a central bore which screwthread-ably receives a threaded spindle 42. A seal block 43, with neoprene seals 44, is formed integrally with the spindle 42 and is sealably mounted in the seal 5 housing 45 formed in the outer cylinder 12. The outer end of the spindle is of square cross section and engaged in a complementary hole formed in a control nut 46. By rotating the nut 46, the block 41 moves along the spindle 42 to open and close the passage. 10 Control valve 40 is similar to the control valve 39, with a valve block 47 selectively varying the effective area of the passage 28.
A bypass valve 48 is connected to the passage
27 via a hole 49 to enable oil under pressure to be 15 bled to the reservoir 14, while an intake valve 50,
connected to the passage 28 via a hole 51, allows the oil from the reservoir to enter the passage.
The operation of the damper will now be described .
The base plate 10 is secured to a frame e.g.
a vehicle chassis and the piston rod 22 to a vehicle seat (not shown).
It will be assumed that the piston 23 is in the position shown in FIG. 1. When the piston 23 is 25 forced downwardly (i.e. on its downstroke), the volume of the lower chamber 25 is reduced, oil flows out of CD conduit 29 into the passage 27 (the flow into passage
28 being prevented by the onepway valve 36). The bypass valve 48 remains closed and the oil flows
through the restriction in the passage formed by the valve block 41, through the one-way valve 33 and w conduit 31 to the upper chamber 24.
The piston rod 22 effectively reduces the volume of the upper chamber 24 and so the decrease in 35 the volume of the lower chamber 25 is not matched by
~ 2 OCT 1936
Received
o o
G
o
207J60
the increase in volume of the upper chamber 24. The pressure of the oil in the passage 27 increases, it unseats the bypass valve 48 and oil flows through the hole 49 to the reservoir 14.
On the upstroke of the piston, valves 33 and
48 are closed but one-way valve 36 is opened to allow oil to flow from the upper chamber 24 to the lower chamber 25 via the passage 28, the rate of flow (or degree of clamping) being controlled by the restriction 10 in the passage formed by the valve block 47.
As the increase in the volume of the lower chamber 25 is greater than the decrease of the upper chamber 24, the intake valve 49 opens to allow fluid to enter the passage 28 from the reservoir 14. 15 As the flow of oil between the chambers follows different paths on the up - and down strokes, the adjustment of the control valves 39, 40 allows the damping on each stroke to be independently controlled, and the degree of damping on each stroke can be from 20 0% - 100%. The bypass valve 48 and intake valve 49 allows the oil to flow between the reservoir and the inner cylinder, maintaining both chambers full of oil.
The valve blocks 41, 47 rr.aybe rotat&oly, but 25 non-axially, movable on the spindles and the nuts 46
of the control valves 39, 40 screwthreadably mount ed on the seal housing 45. Then as the nuts are rotated they move inwardly or outwardly relative to the outer cylinder, respectively, closing or opening the passages 30 27, 28.
While circular cylinders 12, 13 have been shown in the drawings, these may be substantially square in plan, if preferred. In addition, the passages 27, 28 may be spaced from inner cylinder 13 and 35 connected thereto by short tubes forming the conduits
... ICE
- 2 OCT *93&
RECEIVED ~
207460
29-32.
The removable cover plate 16 enables the piston 23 to be withdrawn and the damper serviced. However, the cover plate 16 and annular plate 15 may 5 be made in one piece and the damper sealed for life,
the oil acting as a lubricant.
The damper of the invention is shown in FIGS. 3 and 4. The preferred embodiment damper 60 has damper body 61 formed by two body halves 62, 63 secured together 10 by bolts 64 which pass through the length of the body.
A central cylinder 65 is formed in the body 61 and is closed at each ena by a respective stainless steel insert 66. Each insert has a peripheral flange ^ 67 located in a recess at the respective ends of the
cylinder.
h bronze bearing or busn 68 is fitted in each insert 66 and aligned co-axial bores 69 are provided through the pairs of inserts 66 ana bearings 68.
A piston rod 70 is slidably journalled in the 20 bronze bearings 68 and extends from each end of the body. A series of neoprene o-rings 7 1 are provided in the bearings 68 to provide a fluid-tight seal between the rod 70 and the bearings 68.
A piston 7k is provided in the cylinder 65 and 25 has its hub 73 fixed to the piston rod 70. A piston ring 74 around the periphery of the piston seals the piston to the inner wall of the cylinder 65. As shown, the piston 72 divides the cylinder 65 into two variable volume chambers 75, 76. 30 A pair of passages 77, 78 in the body 61
interconnect the chambers 75, 76. Referring to passage 77, a ball 79 co-operates with a valve seat 60 to provide a one-way valve 81, the ball 79 being seated on the valve seat SO when the oil seeks to flow 35 from the chamber 76 to chamber 75 but being unseated
M.2. PATENT OFFICE
- 2 OCT J986
R ;• r1;". J , r ,
■-.i-X ,
207460
o to allow unrestricted flow from chamber 75 to chamber 76. A similar one-way valve 82 is provided in passage 78 to limit the flow of the oil in the direction of chamber 76 to chamber 75. 5 The flow of oil through the passages, and thereby the damping of a body or member connected to ^ the piston rod 70, is controlled by respective control v~-v valves 83, 84. Referring to control valve 83, this has a shaft 85 rotatably journalled in the body 61 10 and sealed thereto by an o-ring 86. A square head 87 on the outer end of the shaft 85 is adapted to receive an operating handle or lever (not shown).
Referring to FIG. 4, the shaft 85 has a reduced diameter portion, aligned with the passage 15 77, forming an eccentric metering plug 88. By rotating the shaft 85, the plug 88 selectively opens and closes the adjacent ports 89, 90 of the passage 77 to control the flow of oil through the passage.
In FIG. 4, the plug 88 is shown intermediate 20 its closed and open positions and so the degree of damping would be approximately 50% (the shaft 83 being rotatable through approximately 90°between its opened and closed positions).
A small clearance 91 is provided to ensure 25 that some flow of oil is always possible through the passage 77 to prevent the travel of the piston 72.
The operation of the damper will now be described.
The body 61 may be mounted e.g. on a seat 30 frame and one end of the piston rod 70 connected to one of the legs of a spring-loaded, scissor-type support frame .
As the piston rod 70 moves the piston 72 to reduce the volume of oil in chamber 75, the flow of 35 oil through passage 78 is prevented by the one-way
e
207460
'. "i
valve 62 ana so the oil can only flow to the chamber 76 via passage 77. The ball 79 of the one-way valve 81 is unseated ana the oil flows through the control valve 83 at a rate determined by the position of the 5 plug 88 relative to the ports 89 or 90. When the piston 72 is moved in the opposite direction, the oil is transferred between the chambers 76 and 75 at a rate controlled by the control valve 84.
While the control valves b3, 84 are shown on 10 opposite sides of the body 61, it is preferred that they are provided on the same side with their control handles or levers adjacent each other.
In one modidified form of this preferred embodiment (not shown) only one fluid passage may be provided where 15 the intermediate portion of the passage is separated into two parallel branches, each having a one-way valve and control valve to provide controlled unidirectional flow in each branch.
It will be readily apparent to the sKilled 20 addressee that various other types of control or metering valves may be employed to control the degree of damping and one example is a needle valve.
The damper can used in a wide range of applications where the vibration of a body relative 25 to a datum, or between a pair of relatively movable bodies, is required to be damped.
Various changes and modifications may be made to the preferred embodiment described without departing from 30 the scope of the appended claims.
N.Z. PATENT u,-MCt
- 2 OCT 1936
deceived
Claims (3)
1. A vibration damper including: a damper body connectable to a first member; a closed cylinder in the body; a piston means, movable in the cylinder, dividing the cylinder into two variable volume chambers, and having a piston rod extending from the body and connectable to a second member; a pair of fluid passages interconnecting the two chambers and proviaed with respective one-way valve means to provide unidirectional flow, in opposite directions, of the damping fluid between the chambers, each one-way valve means including a valve seat in its respective passage and a ball engageable with the valve seat to close the passage, the ball being urged into engagement with the valve seat by spring means or by the pressure of the damping fluid in the passage upstream ot the ball; ana independently adjustable control valve means in each passage to control the flow of the damping fluid through the passages and thereby control the damping of the piston means in each direction, comprising a shaft rotatably mounted in the body; means to rotate the shaft; and a valve plug on the shaft aligned with the passage, the plug being of reduced diameter and eccentric to the shaft and so arranged that as the shaft is rotated, the effective cross-sectional area of the passage is selectively increased or decreased. I*-. - — -■" < J o 207460 -11-
2. A damper as claimed in Claim 1 wherein: each passage has a pair of ports adjacent the adjustable control valve means; and each adjustable control valve means substantially prevents the flow of damping fluid through its respective fluid passage when closed, the plug being adjacent one of the ports.
3. A damper as claimed in Claim 2, wherein: the piston rod extends from both ends of the body, and is so arranged that as the piston moves in the cylinder the decrease in volume of one of the chambers is substantially equal to the corresponding increase in volume of the other of the chambers. WEST-WALKER, McCABE 2 OCT 1986
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/AU1983/000153 WO1984001605A1 (en) | 1982-10-20 | 1983-10-20 | A vibration damper |
Publications (1)
Publication Number | Publication Date |
---|---|
NZ207460A true NZ207460A (en) | 1986-12-05 |
Family
ID=3761201
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
NZ207460A NZ207460A (en) | 1983-10-20 | 1984-03-09 | Vibration damper:damping in both stroke directions separately adjustable |
Country Status (4)
Country | Link |
---|---|
CA (1) | CA1235157A (en) |
ES (1) | ES8503584A1 (en) |
IT (1) | IT1180058B (en) |
NZ (1) | NZ207460A (en) |
-
1984
- 1984-03-09 NZ NZ207460A patent/NZ207460A/en unknown
- 1984-03-12 CA CA000449386A patent/CA1235157A/en not_active Expired
- 1984-04-13 IT IT67373/84A patent/IT1180058B/en active
- 1984-04-18 ES ES531731A patent/ES8503584A1/en not_active Expired
Also Published As
Publication number | Publication date |
---|---|
ES531731A0 (en) | 1985-03-01 |
IT8467373A1 (en) | 1985-10-13 |
IT8467373A0 (en) | 1984-04-13 |
CA1235157A (en) | 1988-04-12 |
IT1180058B (en) | 1987-09-23 |
ES8503584A1 (en) | 1985-03-01 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US5404973A (en) | Damping force control type hydraulic shock absorber | |
US3420341A (en) | Variable shock absorber | |
US6003644A (en) | Damping force variable hydraulic shock absorber | |
US4099602A (en) | Hydraulic positioner with bidirectional detenting action | |
US20040163905A1 (en) | Position-sensitive shock absorber | |
JPH023720A (en) | Fluid pressure impact and vibration damper, damping of which can be adjusted | |
CN110873144B (en) | Shock absorber | |
JPH06501665A (en) | Switchable roll stabilizer bar | |
GB2112104A (en) | Adjusting hydraulic dampers | |
JP4403475B2 (en) | Suspension device | |
AU2077383A (en) | A vibration damper | |
US20010009214A1 (en) | Hydraulic damper for suspension systems | |
CA2361322C (en) | Improved shock absorber | |
EP0831245B2 (en) | Industrial shock absorber | |
ES2123382A1 (en) | Vibration damper or shock absorber having apparatus for damping spring-mounted wheel suspension systems | |
US6491145B2 (en) | Regulable dashpot for motor vehicles, and method of adjusting such a dashpot | |
US6053486A (en) | Damping cylinder | |
DE10244484C1 (en) | Self-pumping hydropneumatic shock absorber with internal level control | |
US5984059A (en) | Suspension system | |
GB2115106A (en) | Adjusting hydraulic dampers | |
US5242038A (en) | Variable damping force shock absorber | |
NZ207460A (en) | Vibration damper:damping in both stroke directions separately adjustable | |
ES8102950A1 (en) | Hydraulic power-assisted steering system for motor vehicles | |
GB2154300A (en) | Hydro-pneumatic suspension device with adjustable valve | |
KR930006501B1 (en) | Vibration damper |