CN103758910A - Pump-type floating piston damper - Google Patents

Abstract

The invention discloses a pump-type floating piston damper comprising a guide sleeve and seal assembly, an operating cylinder, a piston rod, a piston, an energy accumulator, an oil chamber and a bottom valve. The piston comprises an upper cavity and a lower cavity. The piston rod comprises a hollow cavity and a sliding changeover passage used to change passages from the upper and lower cavities to the hollow cavities; specifically, in a compression travel, the lower cavity is in oil communication with the hollow cavity; in a return travel, the upper cavity is in oil communication with the hollow cavity. A lower end opening of the hollow cavity of the piston rod is closed, and an upper end opening of the piston rod is in oil communication with the oil chamber through a piston rod return oil pipe. The oil chamber is in one-way oil communication with the upper cavity through an upper cavity oil supplement one-way valve and a lower cavity oil supplement pipe. The oil chamber is in one-way oil communication with the lower cavity through a lower cavity oil supplement one-way valve mounted on the bottom valve. Oil flows constantly in a single direction and always flows by an external pipeline, so that radiating effect is significantly improved; the pump-type floating piston damper can arranged in multiple structural layout forms to adapt to vehicles at different application places.

Description

Pump formula floating piston vibration damper

Technical field

The invention belongs to liquid-springing technical field, be specifically related to a kind of fluid one-way flow, can improve the pump formula floating piston vibration damper of vibration damper heat dispersion.

Background technique

Hydraulic damping vibration damper is the important component part of automobile chassis, aspect isolation and decay suspension vibration, is playing an important role.On vehicle, applying at present maximum is Hydraulic shock absorber, and the basic principle that its damping produces is orifice restriction effect.When automobile travels on uneven road surface, the damping function of vibration damper is the heat energy of vibration damper fluid by automobile vibration kinetic transformation, then by each cylinder body, is lost in surrounding environment.The generation of heat can cause the variation of vibration damper operating temperature, and while especially running at high speed on bad road surface, shock absorber oil liquid temp will sharply rise.

Tradition vibration damper is in compression stroke and recovery stroke, fluid is reciprocally flowed and is concentrated by piston valve and bottom valve, fluid, cause oil liquid temperature to rise, and oil liquid temperature rising will cause following harm: (1) causes the variation of oil viscosity, affect the damping characteristic of vibration damper, and then affect the isolation characteristics of suspension system; (2) accelerate the aging of seal element, cause Sealing premature failure, cause the leakage of oil of vibration damper high temperature, gas leak phenomenon; (3) easily cause the cavitation effect of fluid, cause vibration-damper characterist distortion and extraordinary noise; (4) indirectly, the variation of the vibration damper external characteristics causing due to temperature rise, will affect car load maneuverability and smoothness.The temperature rise phenomenon of visible dydraulic shock absorber is to limit it to use and one of the major issue that develops.

Summary of the invention

In order to overcome the deficiencies in the prior art, the invention provides a kind of fluid one-way flow, can improve the pump formula floating piston vibration damper of vibration damper heat dispersion.

For solving the problems of the technologies described above adopted technological scheme, be:

A kind of pump formula floating piston vibration damper, comprise guide sleeve and sealing 1, clutch release slave cylinder 2, piston rod 3, piston 4, accumulator 5, accumulator 6 and bottom valve 7, piston 4 is connected with piston rod 3 lower ends, along clutch release slave cylinder 2 inwalls, slide, clutch release slave cylinder 2 is stretched out in piston rod 3 upper ends, guide sleeve and 1 pair of clutch release slave cylinder 2 upper end of sealing and piston rod 3 seal and lead, bottom valve 7 is arranged between clutch release slave cylinder 2 lower ends and accumulator 7, accumulator 5 outlets are communicated with accumulator 7 fluid, and piston 4 forms respectively epicoele A and cavity of resorption B up and down; Described piston rod 3 has hollow cavity C, and piston 4 has slide handover passage, and the path of epicoele A, cavity of resorption B and hollow cavity C is switched, and while being specially compression stroke, cavity of resorption B is communicated with hollow cavity C fluid, and while restoring stroke, epicoele A is communicated with hollow cavity C fluid;

The hollow cavity C lower end exit seal of piston rod 3, upper end outlet is communicated with accumulator 6 fluid by piston rod return tube 11, and accumulator 6 is by epicoele repairing one-way valve 9, epicoele repairing pipe 10 and epicoele A fluid unilaterally connected;

Accumulator 6 is by the cavity of resorption repairing one-way valve 8 and cavity of resorption B fluid unilaterally connected installing on bottom valve 7 or process.

Preferably, the slide handover passage of described piston 4 comprises epicoele passage 41, cavity of resorption passage 42, sliding support 43 and guiding valve 44, wherein guiding valve 44 is slidably connected with sliding support 43, and the fluid path between epicoele passage 41, cavity of resorption passage 42 and hollow cavity inlet channel 31 is switched; Epicoele passage 41 upsides and cavity of resorption passage 42 downsides are fixed with respectively guiding valve limiting stopper 45.

Alternatively, described guiding valve 44 is rubber seal or flip sleeve.

Preferably, described piston 4 entirety are as guiding valve 44, now epicoele passage 41, cavity of resorption passage 42 are upper and lower two hollow cavity inlet channeles, sliding support 43 is the piston rod of part between two hollow cavity inlet channeles 31, piston 4 entirety are slided along these part piston rod 3 outer surfaces, and the fluid path between epicoele passage 41, cavity of resorption passage 42 and hollow cavity C is switched.

Alternatively, described accumulator 5 is substituted by the airtight air bag 51, inflatable bladders 52 or the floating piston gas storage chamber 53 that are placed in accumulator 6 belows.

Preferably, described epicoele repairing pipe 10 is water conservancy diversion cylinder barrel 101, accumulator 6 consists of oil storage cylinder barrel 61, wherein, water conservancy diversion cylinder barrel 101 upper ends are sealed and are communicated with piston rod return tube 11 fluid by guide sleeve and sealing 1, water conservancy diversion cylinder barrel 101 lower ending openings are communicated with oil storage cylinder barrel 61 fluid, and oil storage cylinder barrel 61 upper inner, water conservancy diversion cylinder barrel 101 outer surface upper ends and guide sleeve and sealing 1 form gas storage chamber 53, and gas storage chamber 53 is equal to accumulator 5.

Preferably, described epicoele repairing pipe 10 and accumulator 6 consist of oil storage water conservancy diversion cylinder barrel 102, oil storage water conservancy diversion cylinder barrel 102 upper ends are by guide sleeve and sealing 1 sealing, and be communicated with the unidirectional fluid of epicoele A by epicoele repairing one-way valve 9, the 102 lower end sealings of oil storage water conservancy diversion cylinder barrel, and be communicated with the unidirectional fluid of cavity of resorption B by cavity of resorption repairing one-way valve 8, oil storage water conservancy diversion cylinder barrel 102 bottoms are furnished with airtight air bag 51 or inflatable bladders 52, and the outlet of hollow cavity C upper end is communicated with oil storage water conservancy diversion cylinder barrel 102 fluid by piston rod return tube 11.

Preferably, described piston rod return tube 11 is helical flexible pipe 111, and helical flexible pipe 111 upper ends are communicated with hollow cavity C upper end outlet fluid, and spiral downwards around piston rod 3, and helical flexible pipe 111 lower ends are communicated with accumulator 6 fluid.

Cavity of resorption repairing one-way valve 8 described in the application is different with the cracking pressure of epicoele repairing one-way valve 9, produces the repairing resistance of different sizes.Described epicoele passage 41 and cavity of resorption passage 42 are damping hole, and the fluid of flowing through is produced to damping function, and epicoele passage 41 and the pore size of cavity of resorption passage 42 and the various combination of quantity produce different big or small damping forces.

Working principle of the present invention is as follows:

The working principle of the slide handover passage of paper piston 4, as shown in Figure 6 (a), when piston 4 is during in compression stroke, guiding valve 44 is subject to clutch release slave cylinder 2 frictional force and the effect of cavity of resorption B oil liquid pressure upwards, along sliding support 43 upward slidings, close epicoele passage 41, open cavity of resorption passage 42, thereby the fluid in cavity of resorption B enters hollow cavity C by cavity of resorption passage 42, hollow cavity inlet channel 31;

As shown in Figure 6 (b), when piston 4 is when restoring stroke, guiding valve 44 is subject to the downward frictional force of clutch release slave cylinder 2 and the effect of epicoele A oil liquid pressure, along sliding support 43 down slidings, close cavity of resorption passage 42, open epicoele passage 41, thereby the fluid in epicoele A enters hollow cavity C by epicoele passage 41, hollow cavity inlet channel 31;

No matter compression stroke is still restored stroke, and the fluid that flows into hollow cavity C all flows out from the outlet of hollow cavity C upper end, by piston rod return tube 11, enters accumulator 6, difference is: during compression stroke, cavity of resorption repairing one-way valve 8 is closed, and epicoele repairing one-way valve 9 is opened, and epicoele A is carried out to repairing; While restoring stroke, epicoele repairing one-way valve 9 is closed, and cavity of resorption repairing one-way valve 8 is opened, and cavity of resorption B is carried out to repairing.

The application's beneficial effect is:

Owing to having adopted unique piston form with slide handover passage, making vibration damper fluid is one-way flow all the time, be similar to the pump oil process of oil hydraulic pump, therefore be called " pump formula floating piston vibration damper ", the one-way flow of fluid, and the fluid exterior line of always flowing through, the application's damper structure radiating effect is significantly improved;

Damping hole and the valve architecture dispersed placement of the compression in the application and recovery stroke, be easier to carry out design and the coupling of different compressive forcees and recuperability, and then obtain desirable damping behavior;

By different piston forms, accumulator form, external oil pipe setting type etc., can realize the various structures setting type of vibration damper, be adapted to the vehicle of different application occasion.

Accompanying drawing explanation

Fig. 1 is a kind of embodiment of the application;

Fig. 2 is two kinds of embodiments of piston;

In Fig. 2 (a), piston switches for realize oil circuit by guiding valve;

In Fig. 2 (b), piston slides oil circuit is switched for entirety;

Fig. 3 is three kinds of replacement forms of accumulator;

In Fig. 3 (a), use airtight air bag;

In Fig. 3 (b), use inflatable bladders;

In Fig. 3 (c), use floating piston gas storage chamber;

Fig. 4 is the second embodiment of the application;

Fig. 5 is the application's the 3rd embodiment;

Fig. 6 is the working principle of the slide handover passage of piston in the application;

Fig. 6 (a) is compression stroke; Fig. 6 (b) is for restoring stroke.

In figure:

1, guide sleeve and sealing; 2, clutch release slave cylinder; 3, piston rod; 4, piston; 5, accumulator; 6, accumulator;

7, bottom valve; 8, cavity of resorption repairing one-way valve; 9, epicoele repairing one-way valve; 10, epicoele repairing pipe;

11, piston rod return tube; A, epicoele; B, cavity of resorption; C, hollow cavity;

31, hollow cavity inlet channel; 41, epicoele passage; 42, cavity of resorption passage; 43, sliding support;

44, guiding valve; 45, guiding valve limiting stopper; 51, airtight air bag; 52, inflatable bladders; 53, floating piston gas storage chamber;

53, gas storage chamber; 61, oil storage cylinder barrel; 111, helical flexible pipe; 101, water conservancy diversion cylinder barrel; 102, oil storage water conservancy diversion cylinder barrel.

Embodiment

Below in conjunction with accompanying drawing, the application is described in detail.

Fig. 1 is a kind of embodiment of the application's pump formula floating piston vibration damper, comprise guide sleeve and sealing 1, clutch release slave cylinder 2, piston rod 3, piston 4, accumulator 5, accumulator 6 and bottom valve 7, piston 4 is connected with piston rod 3 lower ends, along clutch release slave cylinder 2 inwalls, slide, clutch release slave cylinder 2 is stretched out in piston rod 3 upper ends, guide sleeve and 1 pair of clutch release slave cylinder 2 upper end of sealing and piston rod 3 seal and lead, bottom valve 7 is arranged between clutch release slave cylinder 2 lower ends and accumulator 7, accumulator 5 outlets are communicated with accumulator 7 fluid, and piston 4 forms respectively epicoele A and cavity of resorption B up and down; Suitable piston rod 3 has hollow cavity C, and piston 4 has slide handover passage, and the path of epicoele A, cavity of resorption B and hollow cavity C is switched, and while being specially compression stroke, cavity of resorption B is communicated with hollow cavity C fluid, and while restoring stroke, epicoele A is communicated with hollow cavity C fluid;

The hollow cavity C lower end exit seal of piston rod 3, upper end outlet is communicated with accumulator 6 fluid by piston rod return tube 11, and accumulator 6 is by epicoele repairing one-way valve 9, epicoele repairing pipe 10 and epicoele A fluid unilaterally connected;

Accumulator 6 is by the cavity of resorption repairing one-way valve 8 and cavity of resorption B fluid unilaterally connected installing on bottom valve 7 or process.

Fig. 2 is two kinds of embodiments of piston;

In Fig. 2 (a), piston switches for realize oil circuit by guiding valve, described guiding valve 44 can be rubber seal or flip sleeve, the slide handover passage of described piston 4 comprises epicoele passage 41, cavity of resorption passage 42, sliding support 43 and guiding valve 44, wherein guiding valve 44 is slidably connected with sliding support 43, and the fluid path between epicoele passage 41, cavity of resorption passage 42 and hollow cavity inlet channel 31 is switched; Epicoele passage 41 upsides and cavity of resorption passage 42 downsides are fixed with respectively guiding valve limiting stopper 45.

In Fig. 2 (b), piston slides oil circuit is switched for entirety; Described piston 4 entirety are as guiding valve 44, now epicoele passage 41, cavity of resorption passage 42 are upper and lower two hollow cavity inlet channeles, sliding support 43 is the piston rod of part between two hollow cavity inlet channeles 31, piston 4 entirety are slided along these part piston rod 3 outer surfaces, and the fluid path between epicoele passage 41, cavity of resorption passage 42 and hollow cavity C is switched.

Fig. 3 is three kinds of replacement forms of accumulator, and described accumulator 5 is substituted by the airtight air bag 51, inflatable bladders 52 or the floating piston gas storage chamber 53 that are placed in accumulator 6 belows.

Fig. 4 is the second embodiment of the application; Described epicoele repairing pipe 10 is water conservancy diversion cylinder barrel 101, accumulator 6 consists of oil storage cylinder barrel 61, wherein, water conservancy diversion cylinder barrel 101 upper ends are sealed and are communicated with piston rod return tube 11 fluid by guide sleeve and sealing 1, water conservancy diversion cylinder barrel 101 lower ending openings are communicated with oil storage cylinder barrel 61 fluid, oil storage cylinder barrel 61 upper inner, water conservancy diversion cylinder barrel 101 outer surface upper ends and guide sleeve and sealing 1 form gas storage chamber 53, and gas storage chamber 53 is equal to accumulator 5.

Fig. 5 is the application's the 3rd embodiment; Described epicoele repairing pipe 10 and accumulator 6 consist of oil storage water conservancy diversion cylinder barrel 102, oil storage water conservancy diversion cylinder barrel 102 upper ends are by guide sleeve and sealing 1 sealing, and be communicated with the unidirectional fluid of epicoele A by epicoele repairing one-way valve 9, the 102 lower end sealings of oil storage water conservancy diversion cylinder barrel, and be communicated with the unidirectional fluid of cavity of resorption B by cavity of resorption repairing one-way valve 8, oil storage water conservancy diversion cylinder barrel 102 bottoms are furnished with airtight air bag 51 or inflatable bladders 52, and the outlet of hollow cavity C upper end is communicated with oil storage water conservancy diversion cylinder barrel 102 fluid by piston rod return tube 11.

Preferably, described piston rod return tube 11 is helical flexible pipe 111, and as described in Figure 4, helical flexible pipe 111 upper ends are communicated with hollow cavity C upper end outlet fluid, and spiral downwards around piston rod 3, and helical flexible pipe 111 lower ends are communicated with accumulator 6 fluid.

Cavity of resorption repairing one-way valve 8 described in the application is different with the cracking pressure of epicoele repairing one-way valve 9, produces the repairing resistance of different sizes.Described epicoele passage 41 and cavity of resorption passage 42 are damping hole, and the fluid of flowing through is produced to damping function, and epicoele passage 41 and the pore size of cavity of resorption passage 42 and the various combination of quantity produce different big or small damping forces.

Below in conjunction with Fig. 6, the application's working principle is introduced:

The working principle of the slide handover passage of paper piston 4, as shown in Figure 6 (a), when piston 4 is during in compression stroke, guiding valve 44 is subject to clutch release slave cylinder 2 frictional force and the effect of cavity of resorption B oil liquid pressure upwards, along sliding support 43 upward slidings, close epicoele passage 41, open cavity of resorption passage 42, thereby the fluid in cavity of resorption B enters hollow cavity C by cavity of resorption passage 42, hollow cavity inlet channel 31;

As shown in Figure 6 (b), when piston 4 is when restoring stroke, guiding valve 44 is subject to the downward frictional force of clutch release slave cylinder 2 and the effect of epicoele A oil liquid pressure, along sliding support 43 down slidings, close cavity of resorption passage 42, open epicoele passage 41, thereby the fluid in epicoele A enters hollow cavity C by epicoele passage 41, hollow cavity inlet channel 31;

No matter compression stroke is still restored stroke, and the fluid that flows into hollow cavity C all flows out from the outlet of hollow cavity C upper end, by piston rod return tube 11, enters accumulator 6, difference is: during compression stroke, cavity of resorption repairing one-way valve 8 is closed, and epicoele repairing one-way valve 9 is opened, and epicoele A is carried out to repairing; While restoring stroke, epicoele repairing one-way valve 9 is closed, and cavity of resorption repairing one-way valve 8 is opened, and cavity of resorption B is carried out to repairing.

Claims (10)

1. a pump formula floating piston vibration damper, comprise guide sleeve and sealing (1), clutch release slave cylinder (2), piston rod (3), piston (4), accumulator (5), accumulator (6) and bottom valve (7), piston (4) is connected with piston rod (3) lower end, along clutch release slave cylinder (2) inwall, slide, clutch release slave cylinder (2) is stretched out in piston rod (3) upper end, guide sleeve and sealing (1) seal and lead clutch release slave cylinder (2) upper end and piston rod (3), bottom valve (7) is arranged between clutch release slave cylinder (2) lower end and accumulator (7), accumulator (5) outlet is communicated with accumulator (7) fluid, piston (4) forms respectively epicoele (A) and cavity of resorption (B) up and down, it is characterized in that:

Described piston rod (3) has hollow cavity (C), piston (4) has slide handover passage, epicoele (A), cavity of resorption (B) are switched with the path of hollow cavity (C), cavity of resorption while being specially compression stroke (B) is communicated with hollow cavity (C) fluid, and while restoring stroke, epicoele (A) is communicated with hollow cavity (C) fluid;

Hollow cavity (C) the lower end exit seal of piston rod (3), upper end outlet is communicated with accumulator (6) fluid by piston rod return tube (11), and accumulator (6) is by epicoele repairing one-way valve (9), epicoele repairing pipe (10) and epicoele (A) fluid unilaterally connected;

Described accumulator (6) is by the upper cavity of resorption repairing one-way valve (8) of installing or process of bottom valve (7) and cavity of resorption (B) fluid unilaterally connected.

2. a kind of pump formula floating piston vibration damper according to claim 1, is characterized in that:

The slide handover passage of described piston (4) comprises epicoele passage (41), cavity of resorption passage (42), sliding support (43) and guiding valve (44), wherein guiding valve (44) is slidably connected with sliding support (43), and the fluid path between epicoele passage (41), cavity of resorption passage (42) and hollow cavity inlet channel (31) is switched; Epicoele passage (41) upside and cavity of resorption passage (42) downside are fixed with respectively guiding valve limiting stopper (45).

3. a kind of pump formula floating piston vibration damper according to claim 2, is characterized in that:

Described guiding valve (44) is rubber seal or flip sleeve.

4. a kind of pump formula floating piston vibration damper according to claim 2, is characterized in that:

Described piston (4) entirety is as guiding valve (44), now epicoele passage (41), cavity of resorption passage (42) are upper and lower two hollow cavity inlet channeles, sliding support (43) is the piston rod of part between two hollow cavity inlet channeles (31), piston (4) entirety is slided along this part piston rod (3) outer surface, and the fluid path between epicoele passage (41), cavity of resorption passage (42) and hollow cavity (C) is switched.

5. according to the pump formula floating piston vibration damper described in any one in claim 1 to 4, it is characterized in that:

Described accumulator (5) is substituted by the airtight air bag (51), inflatable bladders (52) or the floating piston gas storage chamber (53) that are placed in accumulator (6) below.

6. according to the pump formula floating piston vibration damper described in any one in claim 1 to 4, it is characterized in that:

Described epicoele repairing pipe (10) is water conservancy diversion cylinder barrel (101), accumulator (6) consists of oil storage cylinder barrel (61), wherein, water conservancy diversion cylinder barrel (101) upper end is sealed and is communicated with piston rod return tube (11) fluid by guide sleeve and sealing (1), water conservancy diversion cylinder barrel (101) lower ending opening is communicated with oil storage cylinder barrel (61) fluid, oil storage cylinder barrel (61) upper inner, water conservancy diversion cylinder barrel (101) outer surface upper end and guide sleeve and sealing (1) form gas storage chamber (53), gas storage chamber (53) is equal to accumulator (5).

7. according to the pump formula floating piston vibration damper described in any one in claim 1 to 4, it is characterized in that:

Described epicoele repairing pipe (10) and accumulator (6) consist of oil storage water conservancy diversion cylinder barrel (102), oil storage water conservancy diversion cylinder barrel (102) upper end is by guide sleeve and sealing (1) sealing, and be communicated with the unidirectional fluid of epicoele (A) by epicoele repairing one-way valve (9), the sealing of oil storage water conservancy diversion cylinder barrel (102) lower end, and be communicated with the unidirectional fluid of cavity of resorption (B) by cavity of resorption repairing one-way valve (8), oil storage water conservancy diversion cylinder barrel (102) bottom is furnished with airtight air bag (51) or inflatable bladders (52), the outlet of hollow cavity (C) upper end is communicated with oil storage water conservancy diversion cylinder barrel (102) fluid by piston rod return tube (11).

8. according to the pump formula floating piston vibration damper described in any one in claim 6 or 7, it is characterized in that:

Described piston rod return tube (11) is helical flexible pipe (111), helical flexible pipe (111) upper end is communicated with hollow cavity (C) upper end outlet fluid, and spiral downwards around piston rod (3), helical flexible pipe (111) lower end is communicated with accumulator (6) fluid.

9. pump formula floating piston vibration damper according to claim 1, is characterized in that:

Described cavity of resorption repairing one-way valve (8) is different with the cracking pressure of epicoele repairing one-way valve (9), produces the repairing resistance of different sizes.

10. pump formula floating piston vibration damper according to claim 2, is characterized in that:

Described epicoele passage (41) and cavity of resorption passage (42) are damping hole, to flowing through, fluid produces damping function, the pore size of epicoele passage (41) and cavity of resorption passage (42) and the various combination of quantity, produce different big or small damping forces.

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