CN201157773Y - Fluid measuring apparatus - Google Patents

Abstract

The utility model discloses a fluid measuring device which comprises a pot body and a clapboard, wherein, the pot body is provided with a cavity in which the clapboard is positioned; the cavity comprises a storage cavity, a measuring cavity and a discharge cavity; in the direction of gravity, the storage cavity and the discharge cavity are arranged above the measuring cavity, the upper part of the discharge cavity is sealed, and the lower part of the storage cavity is communicated with the measuring cavity; the upper part of the discharge cavity is provided with a discharge hole, and the lower part of the discharge cavity is communicated with the measuring cavity; the storage cavity and the discharge cavity are isolated by the clapboard. The entire device is of a fixed structure without a moveable piece, and has simple configuration; when the pot body is laid still, the fluid in the storage cavity ban be charged into the measuring cavity partly, and the feeding angle for every time is the same, thereby enabling the fluid measuring to be more accurate.

Description

Fluid measuring evice

Technical field

The utility model is the device of measuring that is used for fluids such as pressed powder, particle or liquid are carried out quantitative fetching about a kind of.

Background technology

Existing container with quantitative fetching function comprises storage container and connected quantitative fetching mechanism, and quantitative fetching mechanism includes quantitative powder fetching groove, when going into the powdery attitude, and quantitative powder fetching groove dress powder; When the powder delivery state, quantitatively powder fetching groove powder delivery.But there is following shortcoming in this kind container: need take operation with two hands, operation inconvenience.

Summary of the invention

Technical problem to be solved by this invention is, overcomes the deficiencies in the prior art, and a kind of simple in structure and quantitative fetching device of being convenient to operate is provided.

The technical solution adopted for the present invention to solve the technical problems is: a kind of fluid measuring evice, comprise tank body and dividing plate, this tank body has cavity, this dividing plate is positioned in this cavity, this cavity comprises storage chamber, cavity and discharging chamber, on gravity direction, this storage chamber and this discharging chamber all are positioned at the top of this cavity, the top in this storage chamber is closed, the bottom in this storage chamber is communicated with this cavity, the top in this discharging chamber has discharging opening, and the bottom in this discharging chamber is communicated with this cavity, and this storage chamber and this discharging chamber are cut off by this dividing plate.

One end of described dividing plate has extension board corresponding with connection place of storage chamber and cavity and that this connection place bore is reduced.

Described cavity has first connection place that is communicated with the storage chamber, second connection place that is communicated with the discharging chamber and the mid portion between this first, second connection place, and this first connection place and this second connection place all are positioned at the top of this mid portion.

Described cavity is the spoon shape body with circular arc diversion cavity wall.

Described cavity is the spoon shape body with at least one diversion cavity wall that extends obliquely.

Described tank body has perisporium and diapire, and this perisporium and this diapire cross this cavity, and this diapire is equipped with regulating block to part that should cavity, this regulating block and this diapire formation moving sets, and this regulating block stretches into this cavity.

Described tank body comprises first tank body and second tank body that matches, and this cavity is crossed by this first tank body and this second tank body, and this dividing plate places this cavity and is close to fixingly with first tank body, and this dividing plate extends and has the gap with this second tank body to second tank body.

On described second tank body regulating block is installed, this regulating block and this second tank body constitute moving sets, and this regulating block stretches into this cavity.

Described discharging chamber is an annular, and it is formed between this dividing plate and this first tank body.

The invention has the beneficial effects as follows 1) whole device all is fixed structure, do not have movement parts, simple structure; 2) tilt can realize measuring by reversing, one hand can be operated, and has simplified to measure operation; When 3) tank body leaves standstill, the fluid of storage in the chamber cavity of can partly packing into, the angle of at every turn feeding all is consistent, it is more accurate that fluid is measured; 4) cavity is a spoon shape body structure, not only makes to measure more accurately, and can restrict fluid and overflows; 5) by extension board is set, the fluid that can block faster when upset in the cavity is back to the storage chamber.

Description of drawings

Fig. 1 is the three-dimensional exploded view of the utility model fluid measuring evice first specific embodiment;

Fig. 2 is the cutaway view of the utility model fluid measuring evice first specific embodiment when static condition;

Fig. 3 is the cutaway view of the utility model fluid measuring evice first specific embodiment when intermediateness;

Fig. 4 is the cutaway view of the utility model fluid measuring evice first specific embodiment when pouring out state;

Fig. 5 is the cutaway view of the utility model fluid measuring evice second specific embodiment when static condition;

Fig. 6 is the three-dimensional exploded view of the utility model fluid measuring evice the 3rd specific embodiment;

Fig. 7 is the stereogram of the utility model fluid measuring evice the 3rd specific embodiment;

Fig. 8 is the cutaway view of the utility model fluid measuring evice the 3rd specific embodiment when static condition;

Fig. 9 is the cutaway view of the utility model fluid measuring evice the 3rd specific embodiment when pouring out state;

Figure 10 is the three-dimensional exploded view of the utility model fluid measuring evice the 4th specific embodiment;

Figure 11 is the three-dimensional exploded view at another visual angle of the utility model fluid measuring evice the 4th specific embodiment;

Figure 12 is the cutaway view of the utility model fluid measuring evice the 4th specific embodiment when static condition;

Figure 13 is the cutaway view of the utility model fluid measuring evice the 4th specific embodiment when pouring out state;

Figure 14 is the preceding cutaway view of volume adjustment of the cavity of the utility model fluid measuring evice the 4th specific embodiment;

Figure 15 is the cutaway view after the volume adjustment of cavity of the utility model fluid measuring evice the 4th specific embodiment;

Figure 16 is the three-dimensional exploded view of the utility model fluid measuring evice the 5th specific embodiment;

Figure 17 is the cutaway view of the utility model fluid measuring evice the 5th specific embodiment when static condition;

Figure 18 is the cutaway view of the utility model fluid measuring evice the 5th specific embodiment when pouring out state;

Figure 19 is the three-dimensional exploded view of the utility model fluid measuring evice the 6th specific embodiment;

Figure 20 is the cutaway view of the utility model fluid measuring evice the 6th specific embodiment when static condition;

Figure 21 is the cutaway view of the utility model fluid measuring evice the 6th specific embodiment when pouring out state;

Figure 22 is the cutaway view of the utility model fluid measuring evice the 7th specific embodiment when static condition;

Figure 23 is the three-dimensional exploded view of the utility model fluid measuring evice the 8th specific embodiment;

Figure 24 is the cutaway view of the utility model fluid measuring evice the 8th specific embodiment when static condition;

Figure 25 is the cutaway view of the utility model fluid measuring evice the 8th specific embodiment when pouring out state;

Figure 26 is the three-dimensional exploded view of the utility model fluid measuring evice the 9th specific embodiment;

Figure 27 is the cutaway view of the utility model fluid measuring evice the 9th specific embodiment when static condition;

Figure 28 is the cutaway view of the utility model fluid measuring evice the 9th specific embodiment when pouring out state;

Figure 29 is the three-dimensional exploded view of the utility model fluid measuring evice the tenth specific embodiment;

Figure 30 is the stereogram of the utility model fluid measuring evice the tenth specific embodiment;

Figure 31 is the cutaway view of the utility model fluid measuring evice the tenth specific embodiment when static condition;

Figure 32 is the cutaway view of the utility model fluid measuring evice the tenth specific embodiment when pouring out state;

Figure 33 is the three-dimensional exploded view of the utility model fluid measuring evice the 11 specific embodiment;

Figure 34 is the cutaway view of the utility model fluid measuring evice the 11 specific embodiment when static condition;

Figure 35 is the cutaway view of the utility model fluid measuring evice the 11 specific embodiment when pouring out state.

The specific embodiment

As shown in Figures 1 to 4, it is first specific embodiment of the present utility model.This fluid measuring evice comprises tank body 1, dividing plate 2 and seal cover 3, and this tank body 1 has annular perisporium 11 and seals the diapire 12 of this annular perisporium bottom, and this perisporium 11 and this diapire 12 cross cavity 13.This dividing plate 2 roughly is the U type that couches, it is made up of first dividing plate 21 that keeps flat, the second partition 22 that keeps flat and the 3rd dividing plate 23 that stands up, the 3rd dividing plate 23 connects this first dividing plate 21 and this second partition 22, and this first dividing plate 21, second partition 22 and the 3rd dividing plate 23 all place this cavity 13 and all fixing with this perisporium 11.By this dividing plate 2 this cavity 13 is divided into storage chamber 131, cavity 132 and discharging chamber 133, the top in this storage chamber 131 is by these extensible seal cover 3 sealings, the bottom in this storage chamber and this cavity 132 are communicated with, the top in this discharging chamber 133 has discharging opening 134, the bottom in this discharging chamber 133 is communicated with this cavity 132, and should be cut off by this dividing plate 2 with this discharging chamber 133 in storage chamber 131.In the present embodiment, this storage chamber 131 is formed between this first dividing plate 21, second partition 22 and the 3rd dividing plate 23, this cavity 132 comprises that this discharging chamber 133 is formed between this second partition 22 and this perisporium 11 at first cavity 135 and second cavity 136 between the 3rd dividing plate 23 and diapire 12 between first dividing plate 21 and the perisporium 11.The volume of this first cavity 135 is much larger than the volume of this second cavity 136, and the volume of its whole cavity 132 is mainly by 135 decisions of first cavity.

The tank body of this fluid measuring evice is in bed flat position under static condition, at this moment, the partially liq in the storage chamber 131 flow in the cavity 132, realizes quantitatively packing into of liquid; In the time of need pouring out liquid, the whole tank body that overturns clockwise, when arriving intermediateness when turning over when turning 90 degrees, tank body is in places the position vertically, and liquid in the storage chamber 131 and the liquid in the cavity 132 separate fully; Continue upset tank body clockwise, the liquid stream in the cavity 132 133 flows and pours out by discharging opening 134 along the discharging chamber.

As shown in Figure 5, it is second specific embodiment of the present utility model, the main distinction of this embodiment and first embodiment is: the volume of this cavity 132 is variable, be horizontally installed with adjusting rod 4 on the diapire 12 of this tank body 1, but this adjusting rod 4 stretches in this first cavity 135 and move left and right, by moving this adjusting rod 4, can realize adjusting to whole cavity 132 volumes.

To shown in Figure 9, it is the 3rd specific embodiment of the present utility model as Fig. 6.This fluid measuring evice comprises tank body 1, dividing plate 2 and end cap 3.The perisporium of this tank body 1 side's of comprising ring-type and seal the diapire of this perisporium one end, this perisporium is made up of end to end tabular first wall body 11, second wall body 12, the 3rd wall body 13 and wall body 14, and this first wall body 11, second wall body 12, the 3rd wall body 13, wall body 14 and this diapire 15 cross cavity 16.This first wall body 11 has a plurality of perforates 111, and this second wall body 12 has first inclined- plane 121 and 122, the first inclined-planes 121, second inclined-plane are inclined upwardly, and second inclined-plane 122 is downward-sloping, and this first inclined-plane 121 and this second inclined-plane 122 have the angle for the obtuse angle.This dividing plate 2 roughly is the L type, and it comprises first dividing plate 21 that stands up and the second partition 22 that keeps flat, and this second partition 22 has the breach 221 that flows out for fluid.This dividing plate 2 is positioned in this cavity 16, and with this cavity 16 be divided into the storage chamber 161, cavity 162 and discharging chamber 163, the top in this storage chamber 161 is by 14 sealings of wall body, the bottom in this storage chamber 161 communicates with this cavity 162, the discharging opening in this discharging chamber 163 i.e. the perforate 111 of this tank body, the bottom in this discharging chamber 163 is communicated with this cavity 162, and should be cut off by this dividing plate 2 with this discharging chamber 163 in storage chamber 161.

When static condition, the segment fluid flow in the storage chamber 161 flows in the cavity 162, and this tank body 1 that overturns clockwise then can be poured out the fluid in the cavity 162 by discharging chamber 163 and discharging opening 164.Because cavity 162 for to have the spoon shape body structure of certain depth, can be realized accurately measuring of fluid, and also can play the effect that prevents that the fluid in the spoon shape body from overflowing by the setting on first inclined-plane 121.

To shown in Figure 15, it is the 4th specific embodiment of the present utility model as Figure 10.This fluid measuring evice comprises tank body 1, dividing plate 2 and regulating block 3, this tank body 1 roughly is egg type, it is made up of first tank body 11 that matches and second tank body 12, and this first tank body 11 and this second tank body 12 cross a cavity 13, and this first tank body has a plurality of perforates 111.This dividing plate 2 is packed in the cavity 13 of this tank body, and it is made up of hollow first dividing plate 21 of bullet shaped and the hollow second partition 22 of taper.This first dividing plate 21, second partition 22 are divided into storage chamber 131, cavity 132 and discharging chamber 133 with this cavity 13, the top sealing in this storage chamber 131, and its underpart is communicated with this cavity 132; The discharging opening on this top, discharging chamber i.e. the perforate 111 of first tank body, and the bottom in this discharging chamber is communicated with this cavity 132, and should be cut off by this first dividing plate 21 with this discharging chamber 133 in storage chamber 131.This storage chamber 131 is crossed by this first dividing plate 21, also roughly is bullet shaped; This discharging chamber 133 is crossed by this first dividing plate 11 and first tank body 11, and it is around this storage chamber 131; This cavity 132 is defined by this second partition 22.This regulating block 3 connects with this second partition 22 and can move up and down by relative this second tank body 12, when moving this regulating block 3, and the volume size that can regulate this cavity 132.

When this tank body was in static condition, cavity 132 was positioned at the bottom of whole cavity 13, and discharging opening is positioned at the top of whole cavity 13, and the fluid in the storage chamber 131 flows under the influence of gravity into cavity 132; When reversing during this tank body 1, the fluids in the cavity 132 are divided into two-way and 133 flow and all discharge by discharging opening along the discharging chamber.

As Figure 16 to Figure 18, it is the 5th specific embodiment of the present utility model.This fluid measuring evice comprises tank body 1, dividing plate 2, first seal cover 3 and second seal cover 4.This tank body 1 is roughly tapered, and it has cavity 11, and this dividing plate 2 is fixed in this cavity 11 and with this cavity 11 and is divided into storage chamber 12, cavity 13 and discharging chamber 14.This stores the roughly big up and small down taper in chamber 12, and this cavity 13 roughly is spoon shape body low between the senior middle school of both sides, and this discharging chamber 14 is roughly upwardly extending elongate body.The top in this storage chamber 12 is by extensible first seal cover, 3 sealings, the bottom in this storage chamber 12 communicates with this cavity 13, the top in this discharging chamber 14 has discharging opening 141, second seal cover, 4 sealings that this discharging opening 141 can be removed, the bottom in this discharging chamber 14 communicates with this cavity 13, and should be cut off by this dividing plate 2 with this discharging chamber 14 in storage chamber 12.

When tank body was in static condition, storage chamber 12 and discharging chamber 14 all were positioned at the top of this cavity 13, and at this moment, the segment fluid flow in the storage chamber 12 flows under the influence of gravity into cavity 13; In the time of need pouring out fluid, reverse this tank body 1 clockwise, the fluid in the cavity 13 14 flows and discharges by discharging opening 141 along the discharging chamber.In the present embodiment, this dividing plate and this tank body are integrated.

To shown in Figure 21, it is the 6th specific embodiment of the present utility model as Figure 19.This fluid measuring evice comprises tank body 1, dividing plate 2 and seal cover 3.This tank body 1 has cavity 11, this cavity 11 is divided into storage chamber 12, cavity 13 and discharging chamber 14, the top in this storage chamber 12 is by 3 sealings of extensible seal cover, the bottom in this storage chamber 12 communicates with this cavity 13, the top in this discharging chamber 14 has discharging opening 141, the bottom in this discharging chamber 14 communicates with this cavity 13, and should be cut off by this dividing plate 2 with this discharging chamber 14 in storage chamber 12.This cavity 13 is positioned at the bottom of whole cavity 11, and is spoon shape body structure low between the senior middle school of both sides, makes fluid be convenient to pack in this cavity 13, and this discharging chamber 14 is the straight tube-like structure of extending obliquely.

When this tank body leaves standstill, on gravity direction, this discharging chamber 14 and this storage chamber 12 all are positioned at the top of this cavity 13, and the segment fluid flow in the storage chamber 12 is fallen under gravity in the cavity 13, and the fluid volumes size of measuring is relevant with the recessed degree of depth of spoon shape body shape cavity; In the time of need pouring out fluid, this tank body 1 that overturns counterclockwise, then the fluid in the cavity 13 can be along the discharging chamber 14 flows and discharges by discharging opening 141.In this switching process, though there is small volume of fluid to be back to storage chamber 12, because the spoon shape body structure of cavity, most fluids still can be poured out, and have realized measuring more accurately of fluid.The length in this discharging chamber is shorter, thereby has also reduced the stroke when fluid is poured out.

As shown in figure 22, it is the 7th specific embodiment of the present utility model, the main distinction of this embodiment and the 6th embodiment is: an end of this dividing plate 2 is provided with the extension board 21 that extends at gravity direction downwards, this extension board 21 stretches into connection place 15 of this storage chamber 12 and this cavity 13, and the bore of this connection place 15 is reduced.In switching process, owing to stopping of this extension board 21, fluid is difficult for being back to storage chamber 12.

To shown in Figure 25, it is the 8th specific embodiment of the present utility model as Figure 23.This fluid measuring evice comprises tank body 1, dividing plate 2, tracheae 3, first seal cover 4 and second seal cover 5.The circular bottom wall 12 that this tank body 1 has the perisporium 11 of annular and seals these perisporium 11 bottoms, this perisporium 11 and this diapire 12 surround a cavity 13, and this cavity is divided into storage chamber 131, cavity 132 and discharging chamber 133.This dividing plate 2 is fixed in this cavity 13, and it comprises first dividing plate 21 that stands up and the second partition 22 that keeps flat, and the middle part of this first dividing plate 21 is provided with through hole 23.This storage chamber 131 is formed between this first dividing plate 21, second partition 22 and the perisporium 11, this cavity 132 comprises and is formed at first cavity 134 between second partition 22 and the diapire 12 and is formed at second cavity 135 between part first dividing plate 21 and the perisporium 11 that discharging chamber 133 is formed between another part first dividing plate 21 and the perisporium 11.Tracheae 3 oblique being positioned in this storage chamber 131, and the one end inserts in the through hole 23 of this first dividing plate 21, the part that first dividing plate 21 is positioned at these tracheae 3 belows forms the part and perisporium 11 formation discharging chambeies 133 that second cavity, 135, the first dividing plates 21 are positioned at these tracheae 3 tops with perisporium 11.The top in this discharging chamber 133 has discharging opening 136, the bottom in this discharging chamber 133 is communicated with this cavity 132, the top in this storage chamber 131 is by extensible first seal cover, 4 sealings, the bottom in this storage chamber 131 is communicated with this cavity 132, and should be cut off by this first dividing plate 21 with this discharging chamber 133 in storage chamber 131.This discharging opening 136 and this first seal cover 4 are covered fully by the second bigger seal cover 5 of volume simultaneously.

When this tank body 1 left standstill, the partially liq in the storage chamber 131 flow in the cavity 132; In the time of need pouring out liquid, shift out second seal cover 5, this tank body 1 that overturns clockwise, then the fluid in the cavity 132 can be discharged by discharging opening 136.

In the present embodiment, the gap between gap, second partition and the diapire between the volume size of cavity 132 and first dividing plate and the perisporium and the position of tracheae are relevant, thereby volume that can pre-set cavity is realized accurately measuring.

To shown in Figure 28, it is the 9th specific embodiment of the present utility model as Figure 26.This fluid measuring evice comprises tank body 1, dividing plate 2, first seal cover 3 and second seal cover 4.This tank body has the perisporium 11 of annular and seals the diapire 12 of this perisporium bottom, and this perisporium 11 and this diapire 12 cross a cavity 13, and this cavity 13 is divided into storage chamber 131, cavity 132 and discharging chamber 133.This diapire 12 has the first wall 121 of inclination, second wall 122 that tilts and the 3rd vertical wall 123, these first wall 121 and these second wall, 122 almost parallels, and the 3rd wall 123 connects this first wall 121 and this second wall 122.The top in this storage chamber 131 is by 3 sealings of first seal cover, the bottom in this storage chamber 131 communicates with this cavity 132, the top in this discharging chamber 133 has discharging opening 134, the bottom in this discharging chamber 133 communicates with this cavity 132, and should store the dividing plate of fixing in chamber 131 and this discharging chamber 133 quilts and perisporium 11 2 and cut off.12 pairs of this diapires should cavity 132 part regulating block 5 moving up and down also is installed, this regulating block 5 stretches in this cavity 132, by moving up and down this regulating block 5, can realize the adjusting to these cavity 132 volume size.

When this tank body left standstill, the segment fluid flows in the storage chamber 131 can flow into cavity 132 along the first wall 121 that tilts, because second walls 122 in this cavity 132 are also for tilting, institute is so that fluid mobile; When needing to discharge fluid, this tank body 1 that overturns clockwise, then the fluid in the cavity 132 can be discharged by discharging opening 134.Because the setting of the 3rd wall body 123 can effectively prevent in the tank body switching process, the fluid in the cavity 132 is back to storage chamber 131.Because the 3rd wall 123 makes this cavity form low spoon shape body shape between a both sides senior middle school for oblique having a down dip, and improved and measured precision, and fluid also is not easy to overflow.

To shown in Figure 32, it is the tenth specific embodiment of the present utility model as Figure 29.This fluid measuring evice comprises tank body 1, dividing plate 2 and end cap 3, this tank body 1 is hexagon, the diapire 12 that it has hexagonal perisporium 11 and seals these perisporium 11 left sides, this perisporium 11 and this diapire 12 cross a cavity 13, this dividing plate 2 this cavity 13 of packing into, the right side of these end cap 3 these perisporiums 11 of sealing.This perisporium 11 has a plurality of perforates that run through 111.This dividing plate 2 is roughly curved, and it inserts in this cavity 13, and the upper end of this dividing plate 2 and the perisporium of this tank body 11 are close to fixing, and its lower end has extension board 21.By this dividing plate 2 this cavity 13 is divided into storage chamber 131, cavity 132 and discharging chamber 133, this cavity 132 is positioned at the bottom of whole cavity 13, the top in this storage chamber 131 is sealed by perisporium 11, its underpart communicates with this cavity 132, the discharging opening on these 133 tops, discharging chamber is the perforate 111 of perisporium 11, the bottom in this discharging chamber 133 communicates with this cavity 132, and should be cut off by this dividing plate 2 with this discharging chamber 133 in storage chamber 131.This end cap also has base plate 31, and this base plate 31 is as whole support of measuring device.

When this tank body 1 is in static condition, this cavity 132 is positioned at the bottom of whole cavity 13, this storage chamber 131 and this discharging chamber 133 all are positioned at the top of this cavity 132, and the segment fluid flow in the storage chamber 131 flows under the influence of gravity into cavity 132 and realizes measuring of convection cell; In the time of need pouring out fluid, this tank body 1 that overturns clockwise, then the fluids in the cavity 132 separate with fluid in the storage chamber 131, and the interior fluid of cavity 132 is 133 mobile and pour out by discharging opening along the discharging chamber.After upset put in place, discharging opening was positioned at the bottom of whole cavity 13, and cavity 132 and storage chamber 131 all are positioned at the top of this discharging opening.Because tank body 1 is a hexagon, and cavity 132 is formed at hexagonal friendship rib 112 places, make whole cavity 132 form low spoon shape body shape between a both sides senior middle school, not only improved the accuracy of measuring, and can prevent effectively that fluid from overflowing.21 pairs of this extension boards should cavity 132 and being communicated with place 134 and the bore of this connection place 134 is reduced of this storage chamber 131, thereby can stop the fluids in the cavity 132 to be back in the storage chamber 131.

To shown in Figure 35, it is the 11 specific embodiment of the present utility model as Figure 33.This fluid measuring evice comprises tank body 1, dividing plate 2 and end cap 3.This tank body 1 roughly is egg type, and it is made up of first tank body 11 that cooperatively interacts and second tank body 12, and this first tank body 11 and second tank body 12 cross a cavity 13, and these first tank body, 11 tops have a plurality of perforates 111.This dividing plate 2 comprises the closure plate 21 that keeps flat, the arc that stands up first dividing plate 22 and the tabular second partition 23 that keeps flat, and this first dividing plate 22 connects this closure plate 21 and this second partition 23.During assembling, dividing plate 2 is put into first tank body 11, and then screw on second tank body 12, dividing plate 2 is positioned in this cavity 13.This dividing plate 2 is divided into storage chamber 131, cavity 132 and discharging chamber 133 with this cavity 13, the top in this storage chamber 131 is closed plate 21 sealings, the bottom in this storage chamber 131 is communicated with this cavity 132, the discharging opening in this discharging chamber 133 is the perforate of first tank body 11, the bottom in this discharging chamber 133 is communicated with this cavity 132, and this discharging chamber 133 is cut off by this dividing plate 2 with this storage chamber 131.

When this tank body left standstill, the segment fluid flow in the storage chamber 131 dropped into cavity 132, and at this moment, discharging opening is positioned at the top of whole cavity 13, and cavity 132 is positioned at the bottom of whole cavity 13; When need discharging fluid, reverse whole tank body 1 clockwise, then the fluids in the cavity 132 can be discharged by discharging opening, and at this moment, cavity 132 is positioned at the top of whole cavity 13, and discharging opening is positioned at the bottom of whole cavity 13.In order to prevent that fluid is back to storage chamber 131 in switching process, this second partition 23 also has extension board 231, and 231 pairs of this extension boards should be stored connection place 134 of chamber 131 and this cavity 132 and the bore of this connection place 134 is reduced.This tank body is an egg type, and this cavity also has arcuate shape low between the senior middle school of both sides, and institute is so that the fluid and prevent that fluid from overflowing of packing into.

The utility model fluid measuring evice comprises tank body and dividing plate, this tank body has cavity, this dividing plate is positioned in this cavity, and this cavity comprises storage chamber, cavity and discharging chamber, on gravity direction, this storage chamber and this discharging chamber all are positioned at the top of this cavity, the top in this storage chamber is closed, and the bottom in this storage chamber is communicated with this cavity, and the top in this discharging chamber has discharging opening, the bottom in this discharging chamber is communicated with this cavity, and this storage chamber and this discharging chamber are cut off by this dividing plate.One end of described dividing plate has extension board corresponding with connection place of storage chamber and cavity and that this connection place bore is reduced.Described cavity has first connection place that is communicated with the storage chamber, second connection place that is communicated with the discharging chamber and the mid portion between this first, second connection place, and this first connection place and this second connection place all are positioned at the top of this mid portion.In order to realize measuring accurately and prevent that fluid from overflowing, this cavity is a spoon shape body structure low between the senior middle school of both sides.In order to form the spoon shape body structure, this cavity can have the diversion cavity wall of arc, perhaps has the diversion cavity wall that extends obliquely, and perhaps other plays the structure of same function.This tank body and this dividing plate can be one-body molded, also can independently be provided with and are close to fixing when assembling.When tank body tilted reversing, the fluid in the cavity both can be only poured out along leading up to the discharging chamber, also can be divided into two-way and pour out by the discharging chamber, and when this two-way was poured out, the discharging chamber be around the annular of storing the chamber.When static condition, storage chamber and discharging chamber all are positioned at the top of cavity.

Above content be in conjunction with concrete preferred implementation to further describing that the utility model is done, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, under the prerequisite that does not break away from the utility model design, can also make some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.

Claims (9)

1. fluid measuring evice, it is characterized in that: comprise tank body and dividing plate, this tank body has cavity, this dividing plate is positioned in this cavity, this cavity comprises storage chamber, cavity and discharging chamber, on gravity direction, this storage chamber and this discharging chamber all are positioned at the top of this cavity, the top in this storage chamber is closed, the bottom in this storage chamber is communicated with this cavity, the top in this discharging chamber has discharging opening, and the bottom in this discharging chamber is communicated with this cavity, and this storage chamber and this discharging chamber are cut off by this dividing plate.

2. fluid measuring evice according to claim 1 is characterized in that: an end of described dividing plate has extension board corresponding with connection place of storage chamber and cavity and that this connection place bore is reduced.

3. fluid measuring evice according to claim 1 and 2, it is characterized in that: described cavity has first connection place that is communicated with the storage chamber, second connection place that is communicated with the discharging chamber and the mid portion between this first, second connection place, and this first connection place and this second connection place all are positioned at the top of this mid portion.

4. fluid measuring evice according to claim 3 is characterized in that: described cavity is the spoon shape body with circular arc diversion cavity wall.

5. fluid measuring evice according to claim 3 is characterized in that: described cavity is the spoon shape body with at least one diversion cavity wall that extends obliquely.

6. fluid measuring evice according to claim 1, it is characterized in that: described tank body has perisporium and diapire, this perisporium and this diapire cross this cavity, this diapire is equipped with regulating block to part that should cavity, this regulating block and this diapire constitute moving sets, and this regulating block stretches into this cavity.

7. fluid measuring evice according to claim 1, it is characterized in that: described tank body comprises first tank body and second tank body that matches, this cavity is crossed by this first tank body and this second tank body, this dividing plate places this cavity and is close to fixingly with first tank body, and this dividing plate extends and has the gap with this second tank body to second tank body.

8. fluid measuring evice according to claim 7 is characterized in that: on described second tank body regulating block is installed, this regulating block and this second tank body constitute moving sets, and this regulating block stretches into this cavity.

9. fluid measuring evice according to claim 7 is characterized in that: described discharging chamber is annular, and it is formed between this dividing plate and this first tank body.

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