CN204642554U - Eccentric fluid container guiding device - Google Patents

Eccentric fluid container guiding device Download PDF

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Publication number
CN204642554U
CN204642554U CN201420651619.4U CN201420651619U CN204642554U CN 204642554 U CN204642554 U CN 204642554U CN 201420651619 U CN201420651619 U CN 201420651619U CN 204642554 U CN204642554 U CN 204642554U
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China
Prior art keywords
reservoir
guiding
fluid inlet
bottle
fluid
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Expired - Fee Related
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CN201420651619.4U
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Chinese (zh)
Inventor
钟锐强
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钟锐强
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Abstract

The utility model discloses a kind of eccentric fluid container guiding device, comprise directed fluid inlet, reservoir, diversion outlet, described reservoir is connected by directed fluid inlet can the bottle container of store fluid material, and the other end is outside diversion outlet pass-out bottle.Deserve reservoir and have maximum capacity when just putting, and reservoir and diversion outlet deviate from directed fluid inlet in the horizontal direction initially leads one of both sides.By the lateral bending water conservancy diversion of reservoir, diversion outlet, utilize Action of Gravity Field, by toppling over, reversing guiding device one sequence, make fluid flow out through guiding device outlet of flowing backwards from bottle, and consumption can be observed when fluid is temporarily stored in reservoir.This kind of quantitative water conservancy diversion structure of container is simple, meets ergonomics, can freely lead get, convenient observation need to lead the dosage got.

Description

Eccentric fluid container guiding device
Technical field
The utility model relates to a kind of eccentric fluid container guiding device, particularly relates to a kind ofly can quantitatively leading the container guiding device getting the fluid medium condiment such as cooking oil, salt, soy sauce, liquid, medicinal powder.
Background technology
People usually need from container low dose of some fluid mediums of taking-up in daily life, as taken out the liquid flavorings such as some cooking oils, soy sauce, salt, sugar when cooking, and in drug bottle quantitative fetching liquid, medicinal powder etc.Because the container volume storing those liquid flavorings is large and Heavy Weight, when pouring out, reading difficulty, easily spreads when causing getting and is difficult to suitably lead according to consumption get, making troubles to the life of people.
So just can divide with cambic temporary storage part and solve metering and take problem.At present, there are some liquid and lead and get device and utilize air pressure by container temporary on liquor pump, then from temporary container, liquid is derived.These apparatus structures are complicated, and in a liquid, operation also has steps such as repeatedly pressing, topple over to conduit extended stationary periods, relatively loaded down with trivial details, and also helpless for pulverous fluid.As fluid extracts to measuring cup by Chinese patent CN200820106611.4 air pump, then from measuring cup, fluid is poured out.Such device complex process, wherein thinner conduit fluid efficiency is lower, clean and maintenance inconvenience.
Also there is partial devices, by repeatedly toppling over, temporary for liquid importing partly derivation is again solved control dose problem, but also exist runner in fluid body water conservancy diversion process arrange clear not, easily splash during fluid flow guiding, ripple, or phase mutual interference between runner, affect the efficiency of water conservancy diversion, be also not easy to observe and control.
As Chinese patent CN201020015567 is provided with a semicircle spoon at bottleneck, by first pouring liquid into spoon, liquid is derived by rotary dumping spoon again, but this spoon temporary storage part is located immediately at immediately below directed fluid inlet when just putting, and very close to directed fluid inlet, when causing spoon rotary dumping, temporary storage part can higher than directed fluid inlet, in temporary storage part, liquid is easy to blow back into directed fluid inlet, causes quantitative deviation, reduces water conservancy diversion efficiency.
As Chinese patent CN200710115680.1 is provided with jigger at bottleneck, bottle is tilted, the liquid flavouring in bottle is made to flow out bottleneck to jigger, reinforced handle reset attachment is utilized to control the folding of bottleneck Moving bottle plug to control, such control flow channel for liquids one is that liquid derives inconvenience control, easy leakage, and runner is irreversible, can go out to be difficult to into; Two is device technique relative complex.
Above-mentioned technology is provided with some cambic temporary parts and quantitatively leads the problem of getting as measuring cup solves, but for how to realize fluid by simple structure and operation come and go freely in the runner of closure between temporary part and reservoir vessel, and freely derive temporary part, realize the scheme that quantitative dumping does not provide directiveness.
Utility model content
The technical problems to be solved in the utility model: 1. structure is simple, operation, maintenance are easily; 2 commonalities are high, are applicable to liquid, graininess fluid etc.; 3. operation is reversible, and unnecessary fluid can reflux; 4. water conservancy diversion efficiency is high;
The technique effect that the utility model realizes: 1, guiding device utilizes gravity inducing fluid flow, and centre does not have choked flow valve, switch etc., simple and make easily, even can common PET bottle as bottle, add that specific guiding device can form water conservancy diversion bottle; 2, can accomplish only need hold bottle when operating, once toppling over body, then reversing body can derive fluid, and can observe the temporary fluid of reservoir when toppling over body.2, owing to being water conservancy diversion under gravity, but not air-pressure guide, therefore all general for fluid, comprise liquid oils, powdery salt, granule etc., there is commonality; 3, operation can be designed as and has invertibility, and in guiding device, exhaustless fluid can reflux bottle; 4, fluid flow guiding can be observed to temporary storage part by guiding device, grasps consumption, if be equipped with diversion outlet lid to open outlet capping derivation fluid again.Water conservancy diversion in the runner of 3 D stereo turnover, reduce mutually interference to directed fluid inlet to guiding device reservoir to the runner of diversion outlet by bottle, thus water conservancy diversion is more smooth and easy, and more concisely easily sees.
The technical solution of the utility model:
A kind of eccentric fluid container guiding device, comprises directed fluid inlet, reservoir, diversion outlet, and described reservoir is communicated with by directed fluid inlet can the bottle container of store fluid material, and the other end is outside diversion outlet pass-out guiding device.
Described directed fluid inlet initially leads, and namely fluid enters the inceptive direction of directed fluid inlet from fluid from bottle, specifically can show as the initial axis of directed fluid inlet, and this axis is the axis vertically penetrating directed fluid inlet and cross section geometric center, bottle junction.
Described reservoir is one can the cavity container of temporary transient store fluid, and when reservoir is just put, diversion outlet is above reservoir, and reservoir container has the maximum capacity of store fluid; When reservoir is just put, reservoir, diversion outlet deviate from one of initial axis both sides of directed fluid inlet in the horizontal direction.Its implication is, reservoir when just putting, diversion outlet depart from the perpendicular at the initial axis place of directed fluid inlet.
Describedly depart from and can be divided into several: 1. directed fluid inlet departs from and causes reservoir, diversion outlet departs from; 2, reservoir departs from and causes reservoir, diversion outlet departs from; 3, reservoir, diversion outlet depart from simultaneously and cause reservoir, diversion outlet departs from; 4, the combination etc. of above situation.
When reservoir is just put, from top view display, described guiding device is shape or shape lateral bending, reservoir, diversion outlet depart from the initial axis of directed fluid inlet, are positioned at one of initial axis both sides of directed fluid inlet.Wherein shape or shape comprises similar shape, shape, " ∩ " shape, the various similar turnover shapes such as shape, " U " shape, " V " shape.
The effect caused is:
Holding body, when making reservoir be in just to put state, due to the initial axis of reservoir offset directed fluid inlet, from directed fluid inlet primitive axis alignment, near being directed fluid inlet, is reservoir and diversion outlet outside;
From reservoir displacement, can be divided into and just put, topple over, fall three kinds, end state, when just putting, diversion outlet is in above reservoir, and reservoir is in directed fluid inlet side-lower; Turn an angle under directed fluid inlet primitive axis alignment together with guiding device when holding bottle, make reservoir, diversion outlet edge remains basically stable or summary is tilted, as: diversion outlet was in directly over reservoir originally, guiding device rotates about 90 degree around directed fluid inlet primitive axis line, then be in tilt state, and reservoir is to directed fluid inlet polarization rotated down;
Tilt state is rotated further again, then reservoir is higher than diversion outlet edge, is in the state of falling the end.
Then this programme can make guiding device when directed fluid inlet primitive axis line rotates, terminate to the state of falling the end until reservoir goes to tilt state, reservoir is substantially under directed fluid inlet and moves, and causes reservoir inner fluid can not to reflux directed fluid inlet, can only flow out diversion outlet along with rotation.
First make guiding device reservoir be in during use just to put, poured in guiding device by bottle inner fluid, then make fluid static, then bottle rotates around the initial axis of directed fluid inlet together with guiding device, and make guiding device be in the state of pouring out, fluid is poured out from guiding device.
Bottle is holded up with guiding device, is bottle and just puts state, and when being designed to directed fluid inlet and being arranged at the reservoir lowest part of following bottle erected state, the remaining fluid of reservoir also can reflux and enter bottle.Meet this requirement, then process inverse operation described in leading portion once, remaining for reservoir fluid backflow can be entered bottle.
As preferably, described guiding device is shape or shape turnover shape lateral bending, by initial for direct fluid directed fluid inlet axis side when pouring out.
Further, described guiding device is curved spoon body, that is to be guiding device be one of situation of shape lateral bending.
As preferably, described directed fluid inlet is a pipeline section, and described reservoir is one spoonful of body, and directed fluid inlet is connected to reservoir sidewall near side edge.That is to be guiding device be one of situation of shape lateral bending.
Further, described reservoir is that uncovered spoon body is upwards uncovered to be had partially enclosed, and diversion outlet is the passage of its opening portion or outstanding opening.
As preferably, described reservoir be pipeline section with directed fluid inlet, directed fluid inlet pipeline section lateral bending, reservoir is "T"-shaped with directed fluid inlet or " " " shape is connected; that is be just putting reservoir, looks squarely middle reservoir " " " shape or be connected, simultaneously due to directed fluid inlet pipeline section lateral bending "T"-shaped with directed fluid inlet, from top view display, to be also guiding device be for this shape or one of situation of shape lateral bending lateral bending.
As preferably, guiding device is provided with one end and is interlinked to the outside with bottle, bottle is led in one end, for the vent cap of equilibration flask inside and outside air pressure.
As preferably, described guiding device is partly or entirely for be made by transparent or semitransparent material; Wall of container corresponding to described reservoir is provided with containing mark mark.
As preferably, described guiding device toward bottle container direction successively: diversion outlet, reservoir, directed fluid inlet, make the guiding device installed with bottle hold up just put time fluid can reflux in bottle.That is bottle is holded up when just putting, be arranged on the guiding device of bottleneck, from top to bottom successively: diversion outlet nadir, reservoir nadir, be the consistent nadir of both sometimes, directed fluid inlet nadir, makes fluid reflux from high to low.
As preferably, described fluid container guiding device, also comprises a lid corresponding with described diversion outlet, and described lid is connected with the pipeline section near diversion outlet by movable connecting portion.
Accompanying drawing explanation
Illustrate that used view is axial, radial all with reference to the initial axis XX ' of directed fluid inlet.
Figure 1A is that the guiding device that the utility model is in the first structure (arc lateral bending spoon) just puts view.Figure 1B be the first structure from guiding device toward directed fluid inlet axial view, Fig. 1 C is the radial top view of the first structure,
Fig. 2 A is the first mode of operation (fluid is in guiding device and the bottle static storage respectively) schematic diagram that the utility model guiding device first structure (arc lateral bending spoon) is installed on bottleneck.Fig. 2 B is that the utility model is in the first mode of operation of the first structure from guiding device to bottle axis of orientation direction view.
Fig. 3 A is the 3rd mode of operation (the fluid outflow guiding device) schematic diagram that the utility model is in the first structure; Fig. 3 B is that the utility model is in the 3rd mode of operation of the first structure from guiding device to bottle axis of orientation direction view.Fig. 3 C is that after utility model is in the 3rd mode of operation of the first structure, guiding device continues to rotate to an angle (reservoir is fallen at the end) from guiding device to bottle axis of orientation direction view.
Fig. 4 A is the radial plan view of the first mode of operation that the utility model is in the first structure; Fig. 4 B is the second mode of operation (fluid is toppled over to guiding device from bottle) the radial plan view that the utility model is in the first structure.Fig. 4 C is the 3rd mode of operation (fluid outflow guiding device) the radial plan view that the utility model is in the first structure.
Fig. 5 is storing state at ordinary times (bottle is just put, the backflow residual fluid) schematic diagram that the utility model is in the first structure.
Fig. 6 A is the first mode of operation (fluid in guiding device and bottle static storage respectively, just put by the reservoir) schematic diagram that the utility model is in that the second structure (pipeline section connects spoon body) is installed on bottle.Fig. 6 B is that the utility model is in the first mode of operation of the second structure from guiding device to bottle axis of orientation direction view.Fig. 6 C is that the utility model is in second mode of operation (fluid outflow guiding device) of the second structure from guiding device to bottle axis of orientation direction view.
Fig. 6 D is the radial top view of the first mode of operation that the utility model is in the second structure, and Fig. 6 E is the radial plan view of the first mode of operation that the utility model is in the second structure,
Fig. 7 A is the first working state schematic representation that the utility model is in that the 3rd structure ("T"-shaped pipe) is installed on bottle.Below diagram is the first mode of operation of the 3rd structure ("T"-shaped pipe).Fig. 7 B be the utility model be in the 3rd structure from guiding device to bottle axis of orientation direction view.Fig. 7 C is the radial top view that the utility model is in the 3rd structure, and Fig. 7 D is the radial plan view that the utility model is in the 3rd structure,
10: guiding device 11: directed fluid inlet 12: reservoir 13: diversion outlet
14: diversion outlet edge 15: stopper 16: gas port
17: connecting band 18: diversion outlet stopper
121: the scale of temporary storage part 12 correspondence
20: bottle
The perpendicular at XX': directed fluid inlet initial axis H: directed fluid inlet initial axis XX ' place
Detailed description of the invention
Below in conjunction with accompanying drawing and preferred embodiment, water conservancy diversion container of the present utility model is described in further detail, but the utility model is not limited in following embodiment.
embodiment 1 (arc lateral bending spoon)
As shown in Figure 1A to Fig. 5, in this embodiment, eccentric guiding device described in the utility model is the spoon body container of an arc lateral bending, is installed on a common tubular bottle bottleneck by cylindrical directed fluid inlet.
Guiding device is in and just puts state as shown in Figure 1A, and described directed fluid inlet 11 is a Cylindrical inlet that can be plugged in bottleneck, and its axis is the initial axis XX ' of directed fluid inlet, and this axis reflection directed fluid inlet initially leads.Plane H is the perpendicular of axis X X ' process.Figure 1B shows, and now diversion outlet 13 is in above reservoir 12, and spoon container open face level, has the maximum capacity of store fluid;
Figure 1B and Fig. 1 C shows spoonful body off-axis XX ' (perpendicular H) gradually from directed fluid inlet, causes reservoir 12 to show spoon body together with diversion outlet 13 whole departure axis X X ', Fig. 1 C and presents shape lateral bending.
If Fig. 2 A is that guiding device 10 is installed on bottle 20 bottleneck, and reservoir is in and just puts constitution diagram, and the initial axis XX ' of directed fluid inlet is close to bottle bottleneck axis.
Revolve and extract guiding device, fluid is poured in bottle, then install guiding device.During use, the first mode of operation first as shown in Figure 2 A, body maintains an equal level or slightly tilts to body.Reservoir 12 is in and just puts state, namely when guiding device rotates to when diversion outlet 13 is above reservoir around the initial axis XX ' of directed fluid inlet, as long as be in body keep flat or omit heeling condition, reservoir 12 is in " ∩ " shape and is communicated with bottle 10, both all can store fluid keep fluid static.
Find out from Fig. 2 B, outside from the initial axis XX ' of directed fluid inlet, near being directed fluid inlet 11, being guiding device reservoir 12 and diversion outlet 13 outside;
Second mode of operation as shown in Figure 4 B, when body is toppled over to guiding device, bottle is in guiding device the state that shape one end is downward, fluid flows to reservoir 12 through directed fluid inlet 11.Fluid is temporary in reservoir 12.And under this state, as long as body replys the first mode of operation, fluid stops flowing out.
3rd mode of operation is as shown in Figure 3A: reservoir is in tilt state.When reservoir 22 replys the first mode of operation from the second mode of operation, as long as bottle turns an angle around the initial axis XX ' of directed fluid inlet, can as shown in Figure 3 B, make reservoir be in tilt state, now reservoir, diversion outlet edge remain basically stable.From directed fluid inlet primitive axis alignment, be directed fluid inlet 11, guiding device reservoir 12 successively; Reservoir 12 maintains an equal level a little more than diversion outlet edge 14, and fluid is poured out.
If bottle is rotated further around the initial axis XX ' of directed fluid inlet around continuation, then reservoir 12 is in the state of falling the end as shown in Figure 3 C, and reservoir 12 is gradually higher than diversion outlet edge 14.
Then this programme can make guiding device 10 when the initial axis XX ' of directed fluid inlet rotates, until reservoir 12 goes to tilt state, reservoir is substantially under directed fluid inlet 11 and moves, cause reservoir inner fluid can not to reflux directed fluid inlet, diversion outlet can only be flowed out along with rotation, in the process, from 4A and 4C, reservoir 12 remains in " ∩ " shape and is communicated with bottle 20.
During above operating process reverse direction operation, fluid can be made to move along runner reverse direction.When body hold up just put time, as shown in Figure 5, from top to bottom order is diversion outlet 13, reservoir 12, directed fluid inlet 11, and bottleneck, body, fluid can reflux in bottle along runner.
This embodiment is enclosed with stopper 15 at directed fluid inlet, and there is the ventilation flue 16 for equilibration flask inner and outer air pressure on directed fluid inlet side.Reservoir also has the scale 121 of corresponding capacity.
embodiment 2 (pipeline section connects spoon body)
As shown in figs. 6 a and 6b, in this embodiment, the reservoir 12 of guiding device described in the utility model is one flat spoonful of body container, the uncovered i.e. diversion outlet 13 of spoon body.Described directed fluid inlet 11 is pipeline sections, communicates with bottle.Run through this pipeline section entrance from bottle 20 toward guiding device 10 direction from axis, cross section, bottleneck place XX ' the i.e. initial axis of directed fluid inlet, this axis XX' is also bottle axis, and this axis reflection directed fluid inlet initially leads.Plane H is the perpendicular of axis X X ' process.As Fig. 6 E, directed fluid inlet 11 is bent downwardly pipeline section, and reservoir 12 can be considered as at plane H downward, namely slightly offsets from water conservancy diversion axis X X ' downwards.
As figure Fig. 6 B, because described directed fluid inlet pipeline section 11 is plugged in reservoir spoon body 12 sidewall near side edge, the effective storage compartment in bottom of reservoir and diversion outlet 13 depart from plane H substantially.So reservoir 12 be in just to put state shown in Fig. 6 A time, can be considered that reservoir 12 and diversion outlet 13 integral level depart from the initial axis XX ' of directed fluid inlet.Fig. 6 D shows spoon body and pipeline section is formed shape lateral bending.
When guiding device rotates around axis X X', when making reservoir 12 be in tilt state shown in Fig. 6 C, because spoon body edge 14 is guiding device nadir, be under directed fluid inlet 11, guiding device reservoir 12, fluid is poured out from guiding device.
The similar embodiment 1 when operating, rotating body by toppling over, around XX' derives fluid quantitative outside bottle.
This spoonful of body diversion outlet slightly upwarps in case fluid splashes, and shows from Fig. 6 D, and spoon body and pipeline section are formed during shape, spoon body slightly tilts to pipeline section, and both angles, slightly larger than 90 degree, are in bottle to make directed fluid inlet and hold up guiding device nadir when just putting, when bottle is just put in the downward Backflow bottle of fluid.
embodiment 3 ("T"-shaped pipe)
As shown in Fig. 7 A and Fig. 7 B, in this embodiment, the directed fluid inlet 11 of guiding device described in the utility model, reservoir 12 are all pipeline sections.From bottle 20 toward guiding device 10 direction, run through bottleneck and enter axis, cross section, directed fluid inlet pipeline section place XX ' the i.e. initial axis of directed fluid inlet, this axis reflection directed fluid inlet initially leads.Plane H is the perpendicular of axis X X ' process.Reservoir 12 be one section of two ends to the approximate straight tube slightly tilted away from directed fluid inlet direction, one end open is diversion outlet 13.As Fig. 7 D, be in when reservoir 12 opening upwards is erect and just put state, directed fluid inlet 11 is horizontal curvature pipeline sections, causes reservoir 12 therefore to depart from plane H, i.e. the initial guidance axis XX ' of offset.
Namely from shown in Fig. 7 B and Fig. 7 D, reservoir is connected with directed fluid inlet is "T"-shaped; Shown in radial top view 7C, guiding device and bottle are shape lateral bending connects.
As illustrated in fig. 7d, because reservoir pipeline section two ends tilt, when body setting is just put, directed fluid inlet 11 is positioned at reservoir pipeline section 12 nadir, and fluid can reflux in bottle along runner.
Can also arrange a removable lid 18 with described diversion outlet 13 correspondence position, described motion stops is connected with the pipeline section lateral wall near diversion outlet by connecting band 17.This embodiment is enclosed with stopper 15 at directed fluid inlet, and there is the ventilation flue 16 for equilibration flask inner and outer air pressure on directed fluid inlet side.Reservoir also has the scale 121 of corresponding capacity.
Pipeline section baffle container described in above embodiment or runner section or all also for be made by transparent material, also can be provided with containing mark corresponding to guiding device wall of container and mark 121.
In addition in above-described embodiment, described directed fluid inlet is connected by rotatable interface with bottle, and guiding device can rotate relative to diversed container, when carrying out rotation process, only needs rotary flow guide device.
The utility model is not limited to above-mentioned embodiment, if do not depart from spirit and scope of the present utility model to various change of the present utility model or modification, if these are changed and modification belongs within claim of the present utility model and equivalent technologies scope, then the utility model is also intended to comprise these change and modification.

Claims (10)

1. an eccentric fluid container guiding device, comprise directed fluid inlet, reservoir, diversion outlet, described reservoir is communicated with by directed fluid inlet can the bottle container of store fluid material, the other end is outside diversion outlet pass-out guiding device, it is characterized in that: described reservoir is one can the cavity container of store fluid, when reservoir is just put, diversion outlet is above reservoir, and reservoir container has the maximum capacity of store fluid; When reservoir is just put, reservoir and diversion outlet deviate from directed fluid inlet in the horizontal direction and initially to lead one of both sides.
2. eccentric fluid container guiding device according to claim 1, is characterized in that: described guiding device is in turnover shape lateral bending.
3. eccentric fluid container guiding device according to claim 2, is characterized in that: described guiding device is the spoon body of curved lateral bending.
4. eccentric fluid container guiding device according to claim 2, is characterized in that: described directed fluid inlet is a pipeline section, described reservoir is one spoonful of body, and directed fluid inlet is connected to reservoir sidewall near side edge.
5. the eccentric fluid container guiding device according to claim 3 or 4, is characterized in that: described reservoir is that uncovered spoon body is upwards uncovered to be had partially enclosed, and diversion outlet is the passage of its opening portion or outstanding opening.
6. eccentric fluid container guiding device according to claim 2, is characterized in that: described reservoir be pipeline section with directed fluid inlet, directed fluid inlet pipeline section lateral bending, reservoir becomes with directed fluid inlet " T " or shape connects.
7., according to the eccentric fluid container guiding device in claim 1-4,6 described in any one, it is characterized in that: on guiding device, be provided with one end be interlinked to the outside with bottle, bottle is led in one end, for the vent cap of equilibration flask inside and outside air pressure.
8., according to the eccentric fluid container guiding device in claim 1-4,6 described in any one, it is characterized in that: described guiding device is partly or entirely for be made by transparent or semitransparent material; Wall of container corresponding to described reservoir is provided with containing mark mark.
9. according to the eccentric fluid container guiding device in claim 1-4,6 described in any one, it is characterized in that: described guiding device toward bottle container direction successively: diversion outlet, reservoir, directed fluid inlet, make install guiding device with bottle erect just put time fluid can reflux in bottle.
10. eccentric fluid container guiding device according to claim 1, also comprises a lid corresponding with described diversion outlet, and described lid is connected with near diversion outlet by movable connecting portion.
CN201420651619.4U 2014-11-04 2014-11-04 Eccentric fluid container guiding device Expired - Fee Related CN204642554U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420651619.4U CN204642554U (en) 2014-11-04 2014-11-04 Eccentric fluid container guiding device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420651619.4U CN204642554U (en) 2014-11-04 2014-11-04 Eccentric fluid container guiding device

Publications (1)

Publication Number Publication Date
CN204642554U true CN204642554U (en) 2015-09-16

Family

ID=54095323

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420651619.4U Expired - Fee Related CN204642554U (en) 2014-11-04 2014-11-04 Eccentric fluid container guiding device

Country Status (1)

Country Link
CN (1) CN204642554U (en)

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