CN102636229B - Rotary measuring device - Google Patents

Abstract

The invention discloses a kind of rotary measuring device, comprise first component and second component, described first component has at least one fluid zone, described fluid zone has two fluid passages be separated, described second component and described first component are rotationally connected and can around pivot center reciprocating rotations between the first position and the second position, described second component has and measures district one to one with described fluid zone, the described district that measures has two quantitative slots with predetermined volume at the most, described first component has stopping and coordinating position, described second component has position of rest, when turning to described primary importance or the second place, described stopping coordinates position to block described position of rest, and each described quantitative slot is all communicated with corresponding fluid passage.By arranging position of rest and stopping coordinating position, define the rotational angle of second component, effectively can ensure the accuracy of rotational angle, thus improve the convenience measuring precision and operation.

Description

Rotary measuring device

Technical field

The invention relates to a kind of for measuring flowing material, as the dispensing device of the fluids such as liquid, pressed powder, solid particle.

Background technology

Existing rotary measuring device generally comprises can body and rotating bucket, and rotating bucket and can body are rotationally connected, and when rotating bucket turns to diverse location, realizes measuring and discharging of convection cell.But existing dispensing device has following shortcoming: the turned position of rotating bucket is not easy to control, thus can not realize accurate measuring.

Summary of the invention

The object of the invention is for the deficiencies in the prior art, provide a kind of and can improve the rotary measuring device measuring precision.

For achieving the above object, present invention employs following technical scheme: a kind of rotary measuring device, comprise first component and second component, described first component has at least one fluid zone, described fluid zone has two fluid passages be separated, described second component and described first component are rotationally connected and can around pivot center reciprocating rotations between the first position and the second position, described second component has and measures district one to one with described fluid zone, the described district that measures has two quantitative slots with predetermined volume at the most, described first component has stopping and coordinating position, described second component has position of rest, when turning to described primary importance or the second place, each described quantitative slot is all communicated with corresponding fluid passage, and described stopping coordinates position to block described position of rest.

Further, described quantitative slot is the quantitative slot of capacity.Quantitative slot can have bottom land and cell wall, and bottom land and/or cell wall activity are arranged.When quantitative slot has two, can share at the bottom of a loose slot.

Further, the top cover that described first component comprises can body and flows out from described fluid passage for fluid anti-when can body is inverted, described can body is located in described fluid zone, described top cover is located at the top of described can body, described second component comprises rotating bucket, the described district that measures is located at described rotating bucket, and described rotating bucket and described can body are rotationally connected.Rotating bucket directly can be rotationally connected with can body, also can be rotationally connected by the elements such as top cover and can body.Because fluid relies on gravity to drop into quantitative slot, so when just putting, rotating bucket is positioned at the below of can body.

Further, described rotating bucket has and drops into baffle plate outside described quantitative slot for fluid anti-when can body is just put.

Further, described can body has the rotation slot extended in the rotation direction of described rotating bucket, and described stopping cooperation position is the cell wall of described rotation slot, and described rotating bucket has the turning block as position of rest, and described turning block loads described rotation slot.

Further, each described fluid zone all to having top cover, described top cover and described can body pivot joint.Top cover and can body can be wholely set.

Further, described position of rest and one of to stop coordinating in position there are two, described position of rest and stop coordinating in position that another has two at the most.

Further, described primary importance and the determined rotational angle of the second place are not more than 90 degree.

Further, described fluid zone and measure Qu Junyou at least two group.

Further, described position of rest coordinates position all to have two with stopping, and two described stoppings coordinate positions between two described position of rests, and the angle of two described stopping cooperation positions is the half of the angle of two described position of rests.

Further, the top of described rotating bucket has the mating groove of annular, and the bottom of described can body has the cooperation wall of annular, described cooperation wall enter described mating groove and with described mating groove frictional fit.

Further, described quantitative slot only has one.

The invention has the beneficial effects as follows: 1) by arranging position of rest and stopping coordinating position, define the rotational angle of second component, in operation can quick position, effectively ensure the accuracy of rotational angle, thus improve the convenience measuring precision and operation.2) simple structure, rationally, the materials such as paper card, plastic cement or metal can be adopted, manufacture low-costly and in high volume.

Accompanying drawing explanation

Fig. 1 and Fig. 2 is the three-dimensional exploded view of two different visual angles of rotary measuring device first embodiment;

Fig. 3 is the stereographic map of the first embodiment;

Fig. 4 is the cut-open view of the first embodiment;

Fig. 5 is another three-dimensional exploded view of the first embodiment;

Fig. 6 and Fig. 7 is the three-dimensional exploded view of two different visual angles of rotary measuring device second embodiment;

Fig. 8 is the stereographic map of the second embodiment;

Cut-open view when Fig. 9 and Figure 10 is quantitative slot influent stream, the drainage of the second embodiment respectively;

Figure 11 is the three-dimensional exploded view of rotary measuring device the 3rd embodiment;

Figure 12 and Figure 13 is stereographic map and the cut-open view of the 3rd embodiment respectively;

Figure 14 is the three-dimensional exploded view of rotary measuring device the 4th embodiment;

Figure 15 and Figure 16 is stereographic map and the cut-open view of the 4th embodiment respectively;

Figure 17 and Figure 18 is three-dimensional exploded view and the stereographic map of the 5th embodiment respectively;

Figure 19 and Figure 20 is three-dimensional exploded view and the stereographic map of the 6th embodiment respectively;

Figure 21 and Figure 22 is the stereographic maps of two top covers of the 7th embodiment when opening respectively respectively;

Figure 23 and Figure 24 is the three-dimensional exploded view of two different visual angles of the 8th embodiment respectively;

Figure 25 and Figure 26 is the three-dimensional exploded view of two different visual angles of rotary measuring device the 9th embodiment;

Figure 27 is the cut-open view of the 9th embodiment.

Embodiment

By reference to the accompanying drawings the present invention is described in further detail below by embodiment.

As shown in Figures 1 to 5, it is the first embodiment of rotary measuring device.Rotary measuring device comprises first component 1 and second component 2, second component and first component are rotationally connected and can around pivot center reciprocating rotations between the first position and the second position, first component has stopping and coordinating position, second component has position of rest, when turning to primary importance or the second place, stop coordinating position to block position of rest.

First component 1 comprises the annular can body 3 of up/down perforation, the inner space of this can body is divided into mutual disconnected first fluid passage 32 and second fluid passage 33 by partition wall 31, this partition wall comprises the first dividing plate 34 that two have angle, this angle is no more than 90 degree, or is designed to other angles.First component can also comprise top cover, and this top cover 4 has corresponding first fluid passage and upwards can turn down the easy flap 43 opened.

Second component 2 comprises rotating bucket 5, and this rotating bucket 5 comprises baffle plate 52 and a quantitative slot 56 with the end.First dividing plate 34 can coordinate position as stopping, and baffle plate 52 is provided with an organ timbering body 521 as position of rest.

The bottom of can body has the cooperation wall 35 of annular, and rotating bucket correspondence is provided with circular mating groove 55.

After having assembled, top cover 4 covers the top at can body, and the open top of first fluid passage closed by the easy flap 43 of top cover; The cooperation wall 35 of can body load rotating bucket mating groove 55 and with this mating groove 55 frictional fit, rotating bucket 5 hangs over the bottom of can body 3 and can relatively to rotate rotation axis left-right rotation by can body 3.

Rotating bucket 5 can reciprocating rotation between the first position and the second position.When turning to primary importance, quantitative slot 56 is communicated with first fluid passage 32, and baffle plate 51 closes second fluid passage, and first dividing plate blocks this organ timbering body 521; When turning to the second place, quantitative slot 56 and second fluid channel connection, baffle plate 51 enclosure portion second fluid passage, another first dividing plate blocks this organ timbering body 521.In the rotation process of rotating bucket, baffle plate enclosure portion second fluid passage, it can prevent the fluid in second fluid passage from dropping into outside quantitative slot.

In present embodiment, rotating bucket has a position of rest, and can body has two to be stopped coordinating position, and position of rest stops coordinating between position at two, when rotating bucket turns to primary importance or the second place, all has one to stop coordinating position to block position of rest.Two stop coordinating the angle of position namely to determine the rotational angle of rotating bucket, and this rotational angle is generally no more than 90 degree, certainly, also can be designed to other angular ranges as requested.

In present embodiment, two fluid passages can be respectively used to deposit fluid and displacement fluids, namely when primary importance or the second place, this quantitative slot is in drainage state or influent stream state, when needing drainage, upwards can turn down the open top of easy flap and open first fluid passage, and tilt or be inverted can body, get final product displacement fluids.Volume for depositing the fluid passage of fluid can be greater than the volume of the fluid passage for displacement fluids.

In present embodiment, each parts all can be made by hard paper.As rotating bucket can be made up of first scraps of paper 56, second scraps of paper 57 and the 3rd scraps of paper 58, first scraps of paper are made into bottom, 3rd scraps of paper 58 are formed by two parts grafting cooperation, and the 3rd scraps of paper 58 are stuck on second scraps of paper 57 and also jointly insert in first scraps of paper 56, thus form the rotating bucket of present embodiment.

As shown in Fig. 6 to Figure 10, it is the second embodiment of rotary measuring device.This rotary measuring device comprises the first component 1 and second component that are rotationally connected.

First component 1 comprises can body 3.The inner space of can body is divided into installation cavity 38 and fluid cavity by the base plate 37 of level, this fluid cavity is divided into first fluid passage 32 and second fluid passage 33 by vertical partition wall 31, and this first fluid passage 32 and second fluid passage 33 are all at this base plate 37 opening.The bottom of this can body also has the rotation slot 36 extended in the rotation direction of second component.Top cover 4 comprises inner cap 41 and upper cover 42, and inner cap has the breach 43 of corresponding first fluid passage.

Second component comprises rotating bucket 5.This rotating bucket 5 has baffle plate 51 and a quantitative slot 56 with the end, and this rotating bucket also has the turning block 57 corresponding with rotation slot.In rotating bucket rotation direction two cell walls 361 of can body rotation slot coordinate position as stopping, and the turning block 57 of rotating bucket is as position of rest.

First component also comprises bottom 6.

After having assembled, upper cover covers the top of inner cap and can body and inner cap is pressed on the top of can body; Rotating bucket loads the installation cavity of can body, and the turning block of rotating bucket loads the rotation slot of can body, and turning block can be rotated in this rotation slot, and the base plate of the baffle plate of rotating bucket and can body seals and fits; Bottom covers rotating bucket and is connected with the bottom thread of can body, and rotating bucket is by rotating shaft 58 and bottom pivot joint, enables rotating bucket left-right rotation between bottom and can body.

Stir turning block and namely can drive rotating bucket left-right rotation between the first position and the second position.When turning to primary importance, quantitative slot and first fluid channel connection, turning block is blocked by a cell wall of rotation slot; When turning to the second place, quantitative slot and second fluid channel connection, turning block is blocked by another cell wall of rotation slot.

In present embodiment, position of rest only has one, stops coordinating position to have two, and this position of rest stops coordinating between position at two.Owing to arranging bottom, easily rotating bucket can be arranged on the bottom of can body, mounting or dismounting are simple.

In present embodiment, limited the rotational angle of rotating bucket by two cell walls of rotation slot.

In present embodiment, when needing displacement fluids, take upper cover away, tilt or be inverted can body, fluid is discharged through the breach of first fluid passage from inner cap.

As shown in Figure 11 to Figure 13, it is the 3rd embodiment of rotary measuring device.This rotary measuring device comprises the first component 1 and second component 2 that are rotationally connected.

First component 1 comprises can body 3 and top cover 4.The bottom of can body crosses installation cavity 38, and the top of can body crosses fluid cavity, and this installation cavity and fluid cavity are separated by base plate 37.This fluid cavity is divided into first fluid passage 32 and second fluid passage 33 by partition wall 31, and this first fluid passage 32 and second fluid passage 33 are in base plate 37 upper shed.The bottom of can body is provided with construction opening 39.The bottom of can body is also provided with circular arc mating groove 30.Top cover 4 comprises inner cap 41 and upper cover 42, is inside covered with the breach 43 corresponding with first fluid passage.

Second component comprises rotating bucket 5, and rotating bucket 5 has the matching board 59 of circular arc, baffle plate 51 and a quantitative slot 56 with the end.Quantitative slot comprises bottom land 561 and cross section is annular cell wall 562, and this cell wall, baffle plate and matching board can be one-body molded, and this bottom land 561 activity is arranged, and such as this bottom land coordinates with cell wall sliding friction.Matching board is as position of rest, and two cell walls 301 of mating groove coordinate position as stopping.

After having assembled, rotating bucket is from the installation cavity 38 of the horizontally mounted can body of the construction opening of can body, and baffle plate and quantitative slot are positioned at installation cavity inside, and matching board coordinates with mating groove, and make matching board encircle this can body; Upper cover covers the top of inner cap and can body and inner cap is pressed on the top of can body.

When rotating bucket turns to primary importance, quantitative slot and first fluid channel connection, the cell wall that matching board is engaged groove blocks; When turning to the second place, quantitative slot and second fluid channel connection, another cell wall that matching board is engaged groove blocks.

In present embodiment, rotating bucket is encircled can body and is hung on can body, and rotating bucket can rotate relative to can body.The bottom land activity of quantitative slot is arranged, thus can the volume of adjustment quantitative groove.Because rotating bucket encircles can body, so dismounting is simple.

As shown in Figure 14 to Figure 16, it is the 4th embodiment of rotary measuring device.This rotary measuring device comprises the first component and second component that are rotationally connected.

First component comprises can body 3 and top cover 4.The inner space of can body is divided into mutual disconnected first fluid passage 32 and second fluid passage 33 by partition wall 31.Partition wall comprises two the first dividing plates 34, and these two the first dividing plates 34 have the angle for acute angle.The bottom of can body also has annular and coordinates wall 35.Top cover 4 comprises inner cap 41 and upper cover 42, and this inner cap 41 has the open-topped breach 43 of corresponding first fluid passage.

Second component comprises rotating bucket 5, and this rotating bucket comprises baffle plate 51 and the annular mating groove 55 around baffle plate, and this baffle plate also has installing port 511.This rotating bucket also comprises quantitative slot assembly, and this quantitative slot assembly is by forming by the end first quantitative slot 52 with by the end second quantitative slot 53 of being integrally connected.

After having assembled, upper cover covers the top of inner cap and can body and inner cap is pressed on the top of can body; Cooperation wall bottom can body inserts the mating groove of rotating bucket, make rotating bucket hang over the below of can body by friction force and can rotate relative to can body, and the baffle plate of rotating bucket is close to two the first dividing plates of can body; Quantitative slot assembly loads the installing port of baffle plate.

The baffle plate of rotating bucket is provided with the first position of rest 512 and the second position of rest 513, and this first, second position of rest is an organ timbering body.Two the first dividing plates of can body stop coordinating position and second to stop coordinating position respectively as first.

When rotating bucket turns to primary importance, the first quantitative slot and first fluid channel connection, the second quantitative slot and second fluid channel connection, first stops coordinating position to block the first position of rest.When turning to the second place, the first quantitative slot and second fluid channel connection, the second quantitative slot and first fluid channel connection, second stops coordinating position to block the second position of rest.Two stop coordinating position between two position of rests, and the angle of the first position of rest and the second position of rest is greater than the angle that the first stopping coordinates position and the second stopping cooperation position, and the angle as the former is the twice of the latter.

Rotating bucket has the independent quantitative slot assembly arranged, thus can change quantitative slot assembly as required, realizes measuring different volumetric fluid.

As shown in FIG. 17 and 18, it is the 5th embodiment of rotary measuring device.This rotary measuring device comprises the first component and second component that are rotationally connected.

First component comprises can body 3 and top cover 4.The bottom of can body 3 crosses installation cavity 38, and the top of can body crosses fluid cavity, and this fluid cavity is divided into mutual disconnected first fluid passage 32 and second fluid passage 33 by partition wall 31.The bottom of can body is provided with the rotation slot 36 extended in the rotation direction of second component, and this rotation slot 36 has two and pivot center about second component is symmetrical.

Rotating bucket 5 comprises rotating bucket main body 50 and two turning blocks 57 as position of rest.Rotating bucket main body comprises baffle plate 51, the first quantitative slot 52 with the end and the second quantitative slot 53 with the end.

After assembling, rotating bucket loads in the installation cavity 38 of can body, and tangled this rotating bucket main body after two turning blocks 57 penetrate two rotation slots 36 respectively, namely rotating bucket hangs over bottom can body by turning block, and the baffle plate of rotating bucket is close to partition wall.When rotating bucket turns to primary importance or the second place, the cell wall of rotation slot blocks turning block, and namely turning block is as position of rest, and the cell wall of rotation slot coordinates position as stopping.

In present embodiment, the first quantitative slot and the second quantitative slot can share a movable bottom land 561 arranged, thus can realize the adjusted in concert to two quantitative slot volumes.

As shown in FIG. 19 and 20, it is the 6th embodiment of rotary measuring device.This embodiment rotary measuring device comprises the first component and second component that are rotationally connected.

First component comprises can body 3 and top cover 4.The bottom of can body crosses installation cavity, and the top of can body crosses fluid cavity, and this installation cavity and fluid cavity are separated by base plate, and this fluid cavity is divided into first fluid passage 32 and second fluid passage 33 by hollow partition wall 31.

Second component comprises rotating bucket 5 and rotatable cover 503.Rotating bucket has baffle plate 51, the first quantitative slot 52 with the end and the second quantitative slot 53 with the end, and rotating bucket also has the Rotational Cylindrical 501 upwards vertically extended from baffle plate 51.The top of this Rotational Cylindrical 501 is provided with latch 502.

After having assembled, rotating bucket loads the installation cavity of can body from the bottom to top, and the baffle plate of rotating bucket and the base plate of can body seal fits; Top cover covers the top at can body, and rotatable cover covers the top of top cover and can body and top cover is pressed in the top of can body; Fix with rotatable cover after the Rotational Cylindrical of rotating bucket is upward through partition wall, top cover.Top cover has the rotation slot 36 corresponding with latch, and the cell wall 361 of this rotation slot coordinates position as stopping, and latch is as position of rest.

Left rotation and right rotation rotatable cover, can with rotating bucket left-right rotation between primary importance and the second place.When turning to primary importance or the second place, latch props up the different cell walls of rotation slot.

In addition, first, second quantitative slot can have the movable bottom land arranged respectively, thus can realize the independent regulation to two quantitative slot volumes.

In present embodiment, owing to being provided with two quantitative slots, in order to prevent maloperation, can arrange closure plate 301 bottom can body, this closure plate is positioned at the bottom opening place of the first fluid passage as current drainage channel.

As shown in Figure 21 to Figure 22, it is the 7th embodiment of rotary measuring device, the key distinction of this embodiment and the first to the 6th embodiment is: rotary measuring device has the first top cover 44 and the second top cover 45, this first, second top cover is all articulated in the top of can body 3, the open top of the corresponding first influent stream passage 32 of this first top cover, the open top of the corresponding second fluid passage 33 of this second top cover.

This first, second top cover has open mode and closed state, when closed state, and the opening of the first top cover or fluid passage corresponding to the second top closure; When open mode, the first top cover or the second top cover upwards overturn to be opened and the opening of open corresponding fluid passage.

In present embodiment, owing to being provided with the first top cover and the second top cover, so can realize the quantitative fetching of fluid and non-quantitation is taken, this quantitative fetching refers to that fluid is discharged after flowing through quantitative slot and fluid passage in turn again, and this non-quantitation is taken and referred to that fluid is directly discharged in fluid passage.

As shown in Figure 23 and Figure 24, it is the 8th embodiment of rotary measuring device.The key distinction of this embodiment and the first to the 7th embodiment is: can body 3 has multiple fluid zone 300, each fluid zone 300 has aforesaid first fluid passage 32 and second fluid passage 33, first fluid passage 32 and the second fluid passage 33 of each fluid zone 300 are separated by partition wall 31, and two adjacent fluid zones are also separated; Rotating bucket 5 has and multiplely measures district 500, and measure district and fluid zone one_to_one corresponding, each district that measures has one or two quantitative slot aforesaid.First component also has multiple top cover 4, the corresponding fluid zone of each top cover 4.When each fluid zone needs displacement fluids, need to open top cover corresponding to this fluid zone.The position of rest of this embodiment and stopping coordinate position only to have corresponding one group, and it is specifically arranged can with reference to the 4th embodiment; Certainly, also can with reference to other embodiment.

As shown in Figure 25 to Figure 27, it is the 9th embodiment of rotary measuring device.Rotary measuring device comprises first component 1 and second component 2, second component and first component are rotationally connected and can around pivot center reciprocating rotations between the first position and the second position, first component has stopping and coordinating position, second component has position of rest, when turning to primary importance or the second place, stop coordinating position to block position of rest.

First component 1 comprises the annular can body 3 of up/down perforation, the inner space of this can body is divided into mutual disconnected first fluid passage 32 and second fluid passage 33 by partition wall 31, this partition wall comprises the first dividing plate 34 that two have angle, this angle is no more than 90 degree, or is designed to other angles.First component can also comprise top cover, and this top cover 4 comprises inner cap 41 and upper cover 42, and inner cap 41 has corresponding first fluid passage and upwards can turn down the easy flap 43 opened.

Second component 2 comprises rotating bucket 5, and this rotating bucket 5 comprises baffle plate 52, the first quantitative slot 52 with the end and the second quantitative slot 53 with the end, and this first quantitative slot and the second quantitative slot are separated by second partition 54.First dividing plate can coordinate position as stopping, and second partition can as position of rest.

The bottom of can body has the cooperation wall 35 of annular, and rotating bucket correspondence is provided with circular mating groove 55.

After having assembled, upper cover 42 covers the top of inner cap 41 and can body and inner cap is pressed on the top of can body, and the open top of first fluid passage 32 closed by the easy flap 43 of inner cap; The cooperation wall 35 of can body snaps in the mating groove 55 of rotating bucket, rotating bucket 5 is hung over bottom can body and can relatively to rotate rotation axis left-right rotation by can body 3.

Rotating bucket can reciprocating rotation between the first position and the second position.When turning to primary importance, first quantitative slot 52 is communicated with first fluid passage 32, second quantitative slot 53 is communicated with second fluid passage 33, baffle plate 51 enclosure portion second fluid passage, and second partition 54 to extend upwardly in first fluid passage and blocked by one of them first dividing plate; When turning to the second place, the first quantitative slot 52 and second fluid channel connection, the second quantitative slot 53 and first fluid channel connection, baffle plate 51 enclosure portion second fluid passage, second partition 54 to stretch in first fluid passage and is blocked by another first dividing plate.In the rotation process of rotating bucket, baffle plate enclosure portion second fluid passage, it can prevent the fluid in second fluid passage from dropping into outside first, second quantitative slot; In rotation process, second partition extends upwardly in first fluid passage.

In present embodiment, rotating bucket has a position of rest, and can body has two to be stopped coordinating position, and position of rest stops coordinating between position at two, when rotating bucket turns to primary importance or the second place, all has one to stop coordinating position to block position of rest.Two stop coordinating the angle of position namely to determine the rotational angle of rotating bucket, and this rotational angle is generally no more than 90 degree, certainly, also can be designed to other angular ranges as requested.

In present embodiment, two fluid passages can be respectively used to deposit fluid and displacement fluids, namely when primary importance or the second place, all have that a quantitative slot is in influent stream state and another quantitative slot is in drainage state, when needing drainage, upwards can turn down the open top of easy flanging and open first fluid passage, and tilt or be inverted can body, get final product displacement fluids.

In present embodiment, each parts all can be made by hard paper.As rotating bucket can be made up of first scraps of paper 56, second scraps of paper 57 and the 3rd scraps of paper 58, first scraps of paper are made into bottom, and second scraps of paper and the 3rd scraps of paper grafting coordinate and insert in first scraps of paper, thus form the rotating bucket of present embodiment.

For rotary measuring device, first component and second component are rotationally connected, second component can between primary importance and the second place left-right rotation, in rotation process, stop rotateing in place when coordinating position to block position of rest, now, quantitative slot is communicated with corresponding fluid passage.First component provides fluid passage, and second component is provided to many two quantitative slots, and the structure of this first component and second component can be not limited to aforementioned embodiments, and it can be the combination of aforementioned multiple embodiment, or other flexible structures that can realize.

Above content is in conjunction with concrete embodiment further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, some simple deduction or replace can also be made, all should be considered as belonging to protection scope of the present invention.

Claims (8)

1. a rotary measuring device, it is characterized in that: comprise first component and second component, described first component has at least one fluid zone, described fluid zone has two fluid passages be separated, described second component and described first component are rotationally connected and can around pivot center reciprocating rotations between the first position and the second position, described second component has and measures district one to one with described fluid zone, described measure district have at the most two there is predetermined volume have end quantitative slot, described first component has stopping and coordinating position, described second component has position of rest, when turning to described primary importance or the second place, described stopping coordinates position to block described position of rest, and each described quantitative slot is all communicated with corresponding fluid passage, described first component comprises can body, and described can body is located in described fluid zone, and described second component comprises rotating bucket, described in measure district and be located at described rotating bucket, described rotating bucket and described can body are rotationally connected, described rotating bucket has and drops into baffle plate outside described quantitative slot for fluid anti-when can body is just put, described position of rest is located on described baffle plate, the bottom of described can body has circular cooperation wall, and described rotating bucket correspondence is provided with circular mating groove, and described cooperation wall enters described mating groove.

2. rotary measuring device as claimed in claim 1, is characterized in that: described quantitative slot is the quantitative slot of variable volume.

3. rotary measuring device as claimed in claim 1, it is characterized in that: described first component also comprises top cover, described top cover is located at the top of described can body.

4. rotary measuring device as claimed in claim 3, is characterized in that: each described fluid zone all to having top cover, described top cover and described can body pivot joint.

5. rotary measuring device as claimed in claim 3, is characterized in that: described position of rest and one of to stop coordinating in position and have two, described position of rest and stop coordinating in position that another has two at the most.

6. rotary measuring device as claimed in claim 5, it is characterized in that: described position of rest and stopping coordinate position all to have two, two described stoppings coordinate position between two described position of rests, and the angle of two described stopping cooperation positions is the half of the angle of two described position of rests.

7. as the rotary measuring device in claim 1-6 as described in any one, it is characterized in that: described primary importance and the determined rotational angle of the second place are not more than 90 degree.

8. rotary measuring device as claimed in claim 7, is characterized in that: described fluid zone and measure Qu Junyou at least two group.