CN105873835A - Reservoir having wave suppression plate - Google Patents

Abstract

A new and improved fluid storage reservoir that includes a wave suppression plate is provided. The wave suppression plate inhibits entraining air into fluid stored within the fluid storage reservoir by inhibiting wave formation and splashing of the fluid at the fluid-to-air interface within the fluid storage reservoir. The wave suppression plate is configured to inhibit mixing between a portion of fluid having a lower entrained amount of air below the wave suppression plate and a portion of fluid having a higher entrained amount of air above the wave suppression plate.

Description

There is the container of wave suppressing plate

Technical field

The present invention relates generally to fluid-storing container, and is particularly configured to storage The air in fluid in fluid-storing container carries the fluid-storing container of reduction secretly.

Background technology

A lot of machines utilize fluid to operate.Such as, many tractor, trucies or other kinds of Mobile device generally includes for by the device energy supply of described apparatus control and operate the liquid of described device Pressure system.

A lot of machines in these machines will suffer from big vibration and impact, and this will cause hydraulic fluid to exist Fluid-storing container splashes and produces wave.Due to the splashing produced because of machine movement and wave, A lot of fluids and particularly hydraulic fluid generally will carry air at flow surface secretly.With being entrained The fluid of air the most also will be thoroughly mixed with the remainder of the fluid in fluid-storing container.

Regrettably, the various parts affected in hydraulic system generally (are such as made by the air being entrained With or process the hydraulic pump of hydraulic fluid, hydraulic cylinder or hydraulic motor) performance and operability.

The invention provides the improvement to fluid-storing container, with reduce the amount of air being entrained and/or The aeriferous fluid of folder is stoped to mix with the remainder of the fluid in fluid-storing container.

Summary of the invention

Embodiments of the invention relate to fluid-storing container that is a kind of new and that improve.More particularly, originally Inventive embodiment relates to fluid-storing container that is a kind of new and that improve, described fluid-storing container bag Include wave suppressing plate, with owing to stoping the waveform at fluid-air interface in fluid-storing container Become and fluid splash and stop air carry secretly in fluid-storing container store fluid in.Additional Haveing an advantage that, described wave suppressing plate prevents or stops the tool being in below described wave suppressing plate Have the fluid section of relatively low air entrainment and be in above described wave suppressing plate have higher Mixing between the fluid section of air entrainment.

In one embodiment, it is provided that a kind of fluid-storing container including tank body and wave suppressing plate. Described tank body limits fluid can be stored in fluid reservoir chamber therein.Bottom described tank body limits and top. Described wave suppressing plate is located between described bottom and described top and from described top and described Bottom skew, thus described fluid reservoir chamber is divided into the top being in above described wave suppressing plate Part and be in the base section below described wave suppressing plate.Described wave suppressing plate has at least one Individual opening, described opening allows fluid to flow between described top section and described base section.

In another embodiment, described tank body includes an inlet and an outlet.Described entrance and described outlet quilt It is positioned below described wave suppressing plate and direct fluid connects with the base section of described fluid reservoir chamber Logical.

In one embodiment, at least one opening described in described wave suppressing plate has and is in institute State the about surface area between 50% and 125% of the whole surface area of outlet.

In one embodiment, at least one opening described includes multiple opening, in the plurality of opening Each opening there is the cross section face equal with diameter circle between about 0.1 inch and 0.256 inch Long-pending.

In one embodiment, the fluid of predetermined is stored in described fluid reservoir chamber, thus Limit fluid-air interface.Described wave suppressing plate is located under described fluid-air interface Side.In an alternative embodiment, described wave suppressing plate is located on described fluid-air interface Side.

In one embodiment, described wave suppressing plate 40 Hes below described fluid-air interface Position between 140mm.

In one embodiment, the plurality of opening is the most at equal intervals.

In one embodiment, secondary plate offsets at described wave suppressing plate and is positioned described ripple Between wave suppressing plate and the top of described tank body, wherein said secondary plate is located in described top section In.

In one embodiment, described secondary plate overlaps with at least one opening described as follows, The most described secondary plate covers at least the 75% of the surface area of at least one opening described.

In one embodiment, described secondary plate along generally with by least one opening described Direction that the flow direction of fluid is vertical, exceed at least 1/4 inch, the periphery of at least one opening described Ground stretches out.

In one embodiment, described secondary plate is spaced apart with distance D1 with described wave suppressing plate.Institute State secondary plate along generally with the vertical direction of flowing of the fluid by least one opening described, Stretch out with the distance at least equal to distance D1.

In one embodiment, at least one opening described includes multiple opening.

In one embodiment, it is provided that a kind of method stoping air to be carried secretly in fluid-storing container. Described method includes the fluid reservoir chamber utilizing wave suppressing plate will to be limited by the tank body of fluid-storing container Being divided into top section and base section, described wave suppressing plate has described top section with described At least one opening of base section fluid communication.

In a method, described method is included in fluid and flows to described top from described base section The secondary plate spaced apart with described wave suppressing plate is used to redirect the flowing of described fluid after part. Described secondary plate in described top section and at the top of described wave suppressing plate and described tank body it Between position.

In a method, described method includes that fluid is taken out by least one outlet by described tank body Going out described tank body, at least one opening described has the cross-sectional area at least one outlet described The cross-sectional area of at least 50%.

In a method, described wave suppressing plate is positioned fluid-air interface in described tank body Between the 140mm and lower section 140mm of top.

When being considered in conjunction with the accompanying, other aspects of the present invention, purpose and advantage will be from detailed below Explanation becomes more fully apparent.

Accompanying drawing explanation

In conjunction with in the description and the accompanying drawing of the part that forms specification shows some sides of the present invention Face, and for explaining the principle of the present invention together with specification.In the accompanying drawings:

Fig. 1 is the simplification stereogram of fluid-storing container according to an embodiment of the invention；

Fig. 2 is the simplification viewgraph of cross-section of the fluid-storing container of Fig. 1；

Fig. 3 is the partial cross-sectional view of the another embodiment of fluid-storing container；

Fig. 4 and Fig. 5 is the partial cross-sectional view that the embodiment in Fig. 3 is additional；

Fig. 6 is the partial cross-sectional view of the another embodiment of fluid-storing container.

Although some preferred embodiment of contact is described by the present invention, but it is not intended to this Invention is limited to those embodiments.On the contrary, it is intended that cover and be included in as defined by the appended claims All alternatives, modification and equivalent in the spirit and scope of the present invention.

Detailed description of the invention

Fig. 1 is the simplification view of the embodiment of the fluid-storing container 100 according to the teachings of the present invention. Fluid-storing container 100 is configured to store the fluid used by down-stream system.Specifically implement one In example, fluid-storing container 100 is configured for storing the fluid-storing container 100 of hydraulic fluid.

Referring additionally to Fig. 2, fluid-storing container 100 includes that tank body 102, described tank body 102 define Wherein can store the fluid reservoir chamber 104 of fluid.Described tank body 102 includes top 106 and and top 108 vertically spaced bottoms 108.Shown tank body is generally prismatic and includes sidewall 110, described sidewall 110 generally between top 106 and bottom 108 extend and at least in part Surround fluid reservoir chamber 104.In certain embodiments, described tank body can be spherical or have can To be bottom or the top of cheese or bowl-type, so that domed shape or spherical form generally provide The sidepiece of described tank body, top and/or bottom, this design will be considered to have top, bottom and Sidepiece.In a preferred embodiment, described tank body 102 is generally formed by pair of U-shaped packaged unit, The pair of U-shaped packaged unit is coupled together to be formed and closes described fluid reservoir chamber 104.

In the embodiment shown, fluid-storing container 100 includes fluid intake 112 and fluid issuing 114. Fluid intake 112 and fluid issuing 114 allow fluid-storing container 100 to be connected to external system, Such as hydraulic system or fuel system.Typically, fluid will be extracted out from fluid issuing 114 and through institute State system.Typically, the fluid being back to fluid-storing container 100 will pass through entrance at run duration 112 enter.Although it is not shown, fluid-storing container 100 can include that other are for initially setting Put the phase or fill or empty ingress port and the outlet port of fluid-storing container 100 at maintenance interval. Additional fluid intake and fluid issuing can exist with the arbitrary disposition of size, quantity or position.

Fluid-storing container 100 includes the wave restraining device suppressing the form of baffle plate in wave, and it shows It is shown as the wave suppressing plate 120 being positioned horizontally between bottom 108 and top 106.Described wave presses down Making sheet 120 vertically offsets from both top 106 and bottom 108.Described wave suppressing plate 120 will Fluid reservoir chamber 104 is separated into the top section 122 being in above wave suppressing plate 120 and is in ripple Base section 124 below wave suppressing plate 120.

Described wave suppressing plate 120 includes the opening 126 of multiple through extension, and it allows fluid at top Flow between part 122 and base section 124.But, the introducing of opening 126 prevents top Points 122 and base section 124 in the easy mixing of fluid.Described wave suppressing plate 120 serves as puppet Top and reduce the whole volume of fluid to fluid-air interface 130 (schematically showing) Total exposure, described fluid-air interface 130 is fluid and be stored in fluid-storing container 100 The surface met of air.

It is desirable that fluid-storing container is not stored in air therein, in order to fully avoid in storage It is stored in fluid therein the possibility carrying (being mixed into) air secretly.But, in addition to other factors Due also to the use of fluid, the leakage of fluid, coarse filling and the expansion of fluid and contraction, And cause fluid-storing container to have some air the most wherein.Described wave suppressing plate 120 Limit the wave action in fluid-storing container 100 and the amount of splashing action, in order to make to carry secretly to storage The amount of the air in fluid in fluid-storing container minimizes.Described wave suppressing plate 120 also limits In tank body processed, the amount of fluid mixing, is exposed to fluid-sky so that being in above wave suppressing plate 120 The fluid of gas interface will not mix with the fluid being in below wave suppressing plate 120 easily.Therefore, Wave suppressing plate allows fluid-storing container 100 less times greater than the fluid body needed lucky in described system Long-pending, in order to compensate the change of fluid volume in described system, hold by being stored in fluid storage with limit The adverse effect that the air that the air of the certain volume in device is caused is carried secretly.

Preferably, opening 126 is sized to allow for fluid in top section 122 and base portion Divide flowing between 124 but stop significantly mixing and also acting as between two parts to prevent base portion Divide the notable motion in 124 or the effect splashed.

Owing to this configuration, entrance 112 and outlet 114 are shown as and are in wave suppressing plate 120 Base section 124 in direct fluid communication of lower section, so that the fluid from fluid-storing container extraction is excellent Selection of land is for having the aeriferous fluid of minimal amount of folder.

In this embodiment it is preferred that, described opening is sufficiently small, to stop fluid at least in part Easy mixing between two parts of storage chamber 104.In one embodiment, each opening has With diameter between about 0.1 inch and 0.256 inch equal transversal of the circle of (preferably from about 0.16 inch) Face area.In certain embodiments, total cross-sectional area of opening 126 is not less than whole outlet port The 50% of total cross-sectional area of (also referred to as suction ports).Preferably, opening 126 is the most transversal Face area is not more than the 125% of total cross-sectional area of whole outlet port.

Preferably, described wave suppressing plate 120 is when fluid-storing container 100 and Hydrostatic therein Time only on fluid-air interface 130 (such as initially by time in fluid filling to described system) Position (preferably between location or lower section 40mm and 140mm between side 40mm and 140mm Lower section).Additionally, multiple openings 126 are the most at equal intervals.

Wave suppressing plate 120 is preferably positioned such that, not more than 20% (more preferably no more than 15% and even more preferably no more than 10%) fluid volume is in top section 120 The top of wave suppressing plate 120.Similarly, wave suppressing plate 120 is preferably positioned such that, The space existed between the bottom of fluid-air interface and plate 120 is less than the fluid in tank body 102 Fluid volume total amount in the 20% of volume total amount, more preferably no more than tank body 102 15%, with And even more preferably no more than the fluid volume total amount in tank body 102 10%.

Fig. 3 shows the another embodiment of fluid container 200 according to an embodiment of the invention.This is real Execute example and include that wave restraining device 219, described wave restraining device 219 include wave suppressing plate 220 With secondary (two grades) plate 221.

In this embodiment, wave suppressing plate 220 includes the opening 226 of a pair expansion, the pair of expansion Big opening 226 is configured to permit fluid in the top section 222 of fluid reservoir chamber 204 and bottom Shift between part 224.

Secondary plate 221 is spaced apart with wave suppressing plate 220 and is positioned in top 206 and wave suppression Between plate 220.Preferably, the space D 1 between wave suppressing plate 220 and secondary plate 221 makes, The fluid of top section 222 is entered by horizontally outward court from the base section 224 of fluid reservoir chamber 204 Guide, as illustrated by arrow 223 to the sidewall 210 storing tank body 202.

In one embodiment, D1 is not more than 3 inches, and preferably D1 is not more than 2 inches, and It is further preferred that D1 is not more than 1 inch.Moreover it is preferred that D1 is sufficiently large to prevent at fluid The base section 224 of storage chamber 204 produces unnecessary back pressure.Such as, D1 is configured to prevent Fluid is fluidly connected to the remainder of top section 222 by opening 226.Preferably, D1 be to Few 1/8 inch, more preferably at least 1/4 inch.

In certain embodiments, wave suppressing plate 220 and secondary plate 221 are mounted so that, when being When system is filled and fluid is in static (such as when the initial fluid of system is filled), two parts Lower section all in fluid-air interface.In certain embodiments, two parts are all located in and work as The top of fluid-air interface when fluid is in static.In other embodiments, static when fluid Time, wave suppressing plate 220 is positioned at below fluid-air interface, and secondary plate 221 be positioned at fluid- Above air interface.Typically, this is also between about 50 and 80 Fahrenheit temperature at fluid Record time under normal temperature.

In this embodiment, secondary plate 221 is integrally in two opposing sidewalls 210 of fluid tank body 204 Between extend.Plate 221 is attached to sidewall 210 by two edges 225 of the plate 221 of adjacent side portion 210. Two edges 227 of the secondary plate 221 extended between edge 225 are spaced apart with adjacent side 210, To allow fluid to flow in the remainder of top section 224 of fluid reservoir chamber 204.Secondary plate 221 compacting wave action.Change on this direction contributes to reducing the wave action in tank body 202 also Contribute to reducing air to carry secretly.

It is expected that at least the 75% of the surface area of opening 226 is covered by secondary plate 221.Preferably Ground, secondary plate 221 is long-pending with all surfaces of whole openings 226 the most overlapping.Moreover it is preferred that Opening 226 is covered as follows by secondary plate 221, i.e. secondary plate 221 exceedes outside opening 226 Week at least distance D1 ground stretches out.This region is the most shown in broken lines and has dimension D 2. Preferably, D2 is more than or equal to D1.In certain embodiments, secondary plate 221 extends outwardly beyond The distance (such as, dimension D 2) of the periphery of each opening is more than 1/4 inch, and more preferably larger than 1/2 Inch.

Fig. 6 shows the another embodiment of fluid container 300.This embodiment is similar in accompanying drawing 3-5 Embodiment.This embodiment does not include the secondary plate in preceding embodiment.On the contrary, this embodiment is only Including the wave suppressing plate 320 of restriction opening 326, described opening 326 allows fluid reservoir chamber 304 Top section 322 and base section 324 between fluid communication.

All reference substances (including publications, patent applications and patents) cited herein pass through at this Quote be bound to as each reference substance is by seriatim with in particular to being shown as by with reference to combining And with its entirety, identical degree is proposed in this article.

The term used in the linguistic context (particularly in the linguistic context of following claims) describing the present invention " one ", " one ", " described " and similar indicant will be understood as one that both covering odd number and plural number, Substantially conflict unless otherwise indicated herein or with linguistic context.Term " includes ", " having ", " comprising " " accommodate " will be understood as open-ended term (i.e., it is meant that " including but not limited to "), unless Otherwise indicated.The narration of number range herein is intended only to serve as relating to one by one each falling into described model Enclose the shorthand method (unless otherwise indicated herein) of interior independent numerical value, and each independent numerical value It is incorporated in specification, as it was described in this article seriatim.Specifically described herein is all Method can perform in any suitable order, unless otherwise indicated herein or obvious with linguistic context Conflict.Any and all example presented herein or exemplary language (such as, " such as ") Use be merely intended to preferably illustrate the present invention and the scope of the present invention do not caused restriction, unless Separately there is opinion.Language in specification is understood not to be indicated into by any element do not advocated in fact Trample element essential to the invention.

Being described herein the preferred embodiments of the present invention, it includes known for inventor for realizing The best mode of the present invention.When reading preceding description, the modification of these preferred embodiments is for ability Can become apparent for the those of ordinary skill in territory.Inventor expects that those skilled in the art are suitable Use described modification, and inventor intend by from the most specifically described different in the way of make The present invention is put into practice.Therefore, the present invention comprises the claims herein that applicable law is allowed Described in all improvement of theme and equivalent.Additionally, the present invention comprises and is in it and likely becomes Any combination of the said elements in type, substantially conflicts unless otherwise indicated herein or with linguistic context.

Claims (17)

1. a fluid-storing container, described fluid-storing container includes:

Tank body, described tank body limits fluid can be stored in fluid reservoir chamber therein, and described tank body limits Bottom and top；And

Wave suppressing plate, described wave suppressing plate be located between described bottom and described top and Offset from described top and described bottom, thus described fluid reservoir chamber is divided into and is in described wave Top section above suppressing plate and be in the base section below described wave suppressing plate, described wave Suppressing plate has at least one opening, at least one opening described allow fluid at described top section and Flow between described base section.

Fluid-storing container the most according to claim 1, it is characterised in that described fluid storage Container also includes an inlet and an outlet, and described entrance and described outlet are located under described wave suppressing plate Side, and with the base section in direct fluid communication of described fluid reservoir chamber.

Fluid-storing container the most according to claim 2, it is characterised in that described wave suppresses At least one opening described in plate has about 50% He of the whole surface area being in described outlet Surface area between 125%.

Fluid-storing container the most according to claim 1, it is characterised in that described at least one Opening includes multiple opening, each opening in the plurality of opening have with diameter at about 0.1 inch and The cross-sectional area that circle between 0.256 inch is equal.

Fluid-storing container the most according to claim 1, it is characterised in that described fluid storage Container also includes being stored in described fluid reservoir chamber thus limits the predetermined body of fluid-air interface Long-pending fluid, described wave suppressing plate is located in below described fluid-air interface.

Fluid-storing container the most according to claim 5, it is characterised in that described wave suppresses Plate positions between 40 and 140mm below described fluid-air interface.

Fluid-storing container the most according to claim 1, it is characterised in that the plurality of opening The most at equal intervals.

Fluid-storing container the most according to claim 1, it is characterised in that each opening has The cross-sectional area equal with diameter circle between about 0.1 inch and 0.256 inch.

Fluid-storing container the most according to claim 1, it is characterised in that described fluid storage Container also includes secondary plate, and described secondary plate offsets at described wave suppressing plate and is positioned described Between the top of wave suppressing plate and described tank body, and described secondary plate is located in described top In Fen.

Fluid-storing container the most according to claim 9, it is characterised in that described secondary plate with Following manner overlaps with at least one opening described, and the most described secondary plate covers at least one opening described Surface area at least 75%.

11. fluid-storing containers according to claim 10, it is characterised in that described secondary plate Along generally vertical with the flow direction of the fluid by least one opening described direction, exceed Ground, at least 1/4 inch, the periphery of at least one opening described stretches out.

12. fluid-storing containers according to claim 10, it is characterised in that described secondary plate Spaced apart with distance D1 with described wave suppressing plate, wherein said secondary plate along generally with pass through institute State the vertical direction of flowing of the fluid of at least one opening, outside with the distance at least equal to distance D1 Extend.

13. fluid-storing containers according to claim 1, it is characterised in that described at least one Opening includes multiple opening.

14. 1 kinds stop the method that air is carried secretly in fluid-storing container, and described method includes:

Utilize wave suppressing plate that the fluid reservoir chamber limited by the tank body of fluid-storing container is divided into top Portion's part and base section, described wave suppressing plate has described top section and described base section At least one opening of fluid communication.

15. methods according to claim 14, it is characterised in that described method is additionally included in stream Body uses spaced apart with described wave suppressing plate after described base section flows to described top section Secondary plate redirect described fluid flowing, described secondary plate is in described top section and in institute State and position between the top of wave suppressing plate and described tank body.

16. methods according to claim 14, it is characterised in that described method also includes passing through At least one outlet of described tank body draws fluid from described tank body, at least one opening described have for The cross-sectional area of at least the 50% of the cross-sectional area of at least one outlet described.

17. methods according to claim 14, it is characterised in that described wave suppressing plate is in institute State and position between 140mm and lower section 140mm in tank body, above fluid-air interface.