CN201193952Y - Rotary type measuring taking device - Google Patents

Abstract

The utility model discloses a rotary weighing device which comprises a storage tank and a measuring bucket. The storage tank is provided with a tank cavity and a mating surface which is positioned under the tank cavity, and the tank cavity is divided into a powder feeding cavity and a powder discharging cavity by a baffle plate. The measuring bucket is tightly pressed on the mating surface and can be attached on the mating surface to rotate around the rotating axis, and the measuring bucket is provided with at least two mutually separated closedended quantitative grooves which are distributed around the rotating axis. The measuring bucket is provided with at least two working positions on the rotating track of the measuring bucket. On each working position, at least one quantitative groove is communicated with the powder feeding cavity, and at least another quantitative groove is communicated with the powder discharging cavity. The measuring bucket can rotate around the rotating axis relatively to the storage tank. In the course of rotating, the measuring bucket can realize powder charging and powder discharging of substances as well as can realize quantitative powder feeding and discharging by setting the quantitative groove, and can be operated by one hand, so that the quantitative taking operation of the substances is simpler.

Description

Rotary type is measured device

Technical field

The utility model relates to a kind of device of measuring that is used to take flowing materials such as powder or particle.

Background technology

In the prior art, people owing to do not have quantitative taking out device, so can only get with individual's judgement, can not realize quantitatively getting when getting pressed powder or solid particle (as salt, milk powder, coffee, albumen powder etc.), and it is very inconvenient to operate.

Summary of the invention

Technical matters to be solved by this invention is, overcomes the deficiencies in the prior art, provides a kind of rotary type of the quantitative fetching of pressed powder or particle of realizing to measure device.

The technical solution adopted for the present invention to solve the technical problems is: a kind of rotary type is measured device, comprise storage tank and batch box, this storage tank has jar chamber and is positioned at the matching surface of its below, this jar chamber by dividing plate be divided into mutually cut off enter powder chamber and powder delivery chamber, this batch box is pressed on this matching surface and can pasting this matching surface and rotates around rotation, this batch box has that at least two of distributing around this rotation cut off mutually end quantitative slot, this batch box has at least two working positions on its rotary motion trace, when each working position, all have a quantitative slot at least and enter the powder chamber and be communicated with and have at least another quantitative slot to be communicated with the powder delivery chamber.

Described batch box comprises first batch box and second batch box that removably connects, and respectively has end quantitative slot to be formed by this first batch box and second batch box.

Described batch box comprises diapire, the extended perisporium in the edge of this diapire reaches from the extended center wall in the middle part of this diapire certainly, this center wall, diapire and perisporium cross measuring tank, this batch box also comprises at least one disc that distributes around this center wall, and each quantitative slot is promptly separated measuring tank by this disc and formed.

Described storage tank comprises base plate and the side plate that extends from this bottom edge, this jar chamber is crossed by this base plate and side plate, this dividing plate connects this base plate and side plate, this matching surface is the surface of this base plate, this base plate has and advances powder inlet that the powder chamber is communicated with and the meal outlet that is communicated with the powder delivery chamber, and this meal outlet and powder inlet separate.

The described device of measuring also comprises the rubber-like installing component, and this batch box is fitted on the matching surface of this storage tank by this installing component elasticity.

Top cover also is stamped in the top in described jar of chamber, installing component comprises first cramping body, connector and second cramping body that connects in turn, this first cramping body is pushed down batch box, this second cramping body is pushed down top cover, this connector connects this first cramping body and second cramping body, and has one of at least elasticity in this first cramping body and second cramping body.

Top cover also is stamped in the top in described jar of chamber.

Back-off has temporary spoon on the described top cover, and this temporary spoon is fitted with top seal.

Be provided with mating cavity one of in the top of described batch box and the bottom of storage tank, the top of this batch box and in the bottom in the storage tank another insert this mating cavity.

The invention has the beneficial effects as follows, batch box can rotate relative to storage tank around rotation, in rotation process, can realize simultaneously material advance powder operation and powder delivery is operated, and the setting by quantitative slot, realize quantitatively advancing powder and quantitatively powder delivery, and can realize one-handed performance, make the quantitative fetching of material easier.

Description of drawings

Fig. 1 is the three-dimensional exploded view (inversion state) that the utility model rotary type is measured device first embodiment;

Fig. 2 is the three-dimensional exploded view that the utility model rotary type is measured device first embodiment;

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

Fig. 4 is the stereographic map of second batch box of first embodiment;

Fig. 5 is the front view of first embodiment; Fig. 6 is the cut-open view of Fig. 5 along the A-A direction; Fig. 7 is the cut-open view of Fig. 5 along the B-B direction;

Fig. 8 is the three-dimensional exploded view (inversion state) that the utility model rotary type is measured device second embodiment;

Fig. 9 is the three-dimensional exploded view that the utility model rotary type is measured device second embodiment;

Figure 10 is the stereographic map of first batch box of second embodiment;

Figure 11 is the stereographic map of second batch box of second embodiment;

Figure 12 is the front view of second embodiment; Figure 13 is the cut-open view of Figure 12 along the C-C direction; Figure 14 is the cut-open view of Figure 12 along the D-D direction;

Figure 15 is the three-dimensional exploded view that the utility model rotary type is measured device the 3rd embodiment;

Figure 16 is the main cut-open view of the 3rd embodiment;

Figure 17 is the three-dimensional exploded view (inversion state) that the utility model rotary type is measured device the 4th embodiment;

Figure 18 is the stereographic map that the utility model rotary type is measured device the 4th embodiment;

Figure 19 is the stereographic map of the storage tank of the 4th embodiment; Figure 20 is the stereographic map of the batch box of the 4th embodiment; Figure 21 is the front view of the 4th embodiment; Figure 22 is the cut-open view of Figure 21 along the E-E direction;

Figure 23 is the three-dimensional exploded view (inversion state) that the utility model rotary type is measured device the 5th embodiment;

Figure 24 is the three-dimensional exploded view that the utility model rotary type is measured device the 5th embodiment;

Figure 25 is the main cut-open view of the 5th embodiment.

Embodiment

To shown in Figure 7, it is first embodiment of the present utility model as Fig. 1.This rotary type is measured device and is comprised storage tank 1, batch box 2, top cover 3 and rubber-like installing component 4.This storage tank 1 comprises circular bottom plate 11, newel 12, dividing plate 13 and the cross section side plate 14 for annular, this side plate 14 extends from the edge-perpendicular of this base plate 11 one that makes progress, this newel 12 is from the middle position one extension vertically upward of this base plate 11, this side plate 14 is around this newel 12, and this newel 12, base plate 11 and side plate 14 cross an annular jar chamber.This dividing plate 13 connects this newel 12, base plate 11 and side plates 14, and with this jar chamber be divided into cut off mutually enter powder chamber 15 and powder delivery chamber 16.This base plate 11 has and advances powder inlet 111 that powder chamber 15 is communicated with and the meal outlet 112 that is communicated with powder delivery chamber 16, and this powder inlet 111 and meal outlet 112 separate.

This batch box 2 can rotate relative to storage tank 1 around its rotation, and it comprises first batch box 21 and second batch box 22 that removably connects.This first batch box 21 comprises that the cross section is the perisporium 211 of annular, center wall 212 and a plurality of disc 213 of up/down perforation.This perisporium 211 comprises first perisporium 2111 and the second thicker perisporium 2112 of wall thickness that wall thickness is thin, this first perisporium 2111 crosses a mating cavity 2113, this second perisporium 2112 is around this center wall 212, the intersection of this first perisporium 2111 and second perisporium 2112 forms step surface 2114, each disc 213 with this center wall 212 be the center radially equal angles evenly distribute, each disc 213 all connects the center wall 212 and second perisporium 2112 and forms a plurality of quantitative slots 215 that cut off mutually.This second batch box 22 has the center pit that axially runs through 221 and is the center equally distributed a plurality of draw-in grooves 222 of equal angles radially with this center pit 221, center wall 212 couplings of this center pit 221 and first batch box 21, each draw-in groove 222 all is communicated with center pit 221, adjacent draw-in groove 222 is separated by the solid block 223 of fan annular, each draw-in groove 222 corresponding disc 213, each solid block 223 corresponding quantitative slot 215.

This top cover 3 comprises first top cover 31 and second top cover 32 that separate to be provided with, and this first top cover 31 covers the open top of entering powder chamber 15 at storage tank 1 by frictional fit, and this second top cover 32 covers open top in the powder delivery chamber 16 of storage tank 1 by frictional fit.

This installing component 4 comprises first cramping body 41, second cramping body 43 and two connectors 42, this first cramping body 41 is arc bodies and has elasticity, this first cramping body 41 has the central block 411 with center pit 221 coupling of second batch box, these two connectors 42 all also extend from the two ends of this first cramping body 41 respectively vertically upward with these first cramping body, 41 one, this second cramping body 43 has the first relative end 431 and second end 432, and the top of this first end 431 and one of them connector 42 is hinged.

During installation, pack second batch box 22 into first batch box 21 and form the batch box 2 of an integral body, make the center pit 221 of second batch box 22 entangle the center wall 212 of first batch box 21, each disc 213 of first batch box 21 is inserted respectively in the draw-in groove 222 of the second corresponding batch box 22, each solid block 223 of second batch box 22 is filled in respectively in the quantitative slot 215 of the first corresponding batch box 21, formed a plurality of quantitative slots 215 (being of the rotation distribution of each quantitative slot) that the end is arranged around batch box with circle distribution.The bottom of storage tank 1 is inserted in the mating cavity 2113 of first batch box and be pressed on the step surface 2114 of first batch box (base plate that is storage tank is pressed on the step surface of first batch box).What first top cover 31 and second top cover 32 covered storage tank respectively enters powder chamber 15 and powder delivery chamber 16.The central block 411 of first cramping body 41 inserts the center wall 212 of first batch box 21, two connectors 42 are clamped storage tank 1 in the outside, first cramping body 41 is pushed down batch box 2 one of (in first cramping body and first batch box and second batch box at least directly contact), second end 432 that second cramping body 43 is pushed down first top cover 31 and this second cramping body another connector 42 that links closely, realize installing component 4, storage tank 1, assembling between top cover 3 and the batch box 2, and utilize the elastic force of first cramping body 41, make whole batch box 2 be close to the lower surface 113 of storage tank base plate 11, promptly whole batch box can paste this base plate and rotate around rotation.

When this batch box was in running order, it had a plurality of working positions in self rotation rotating process.In any one working position, all have at least a quantitative slot 215 to be communicated with the powder inlet 111 of base plate that (powders that advance in the powder chamber 15 of storage tank drop in these quantitative slots 215 by this powder inlet 111, realize powder), and have at least another quantitative slot to be communicated with (when whole device was reversed, the powder in these quantitative slots can be poured out by the powder delivery chamber 16 of this meal outlet 112 and storage tank in turn) with the meal outlet 112 of base plate.

In the present embodiment, by top mating cavity 2113 is set at whole batch box 2, with the bottom of storage tank 1 this mating cavity 2113 of packing into, realize that batch box 2 cooperates with the grafting of storage tank 1, make this batch box 2 and storage tank 1 have better sealing property, can better prevent that the powder in the storage tank 1 from making moist.Batch box 2 comprises first batch box 21 and second batch box 22 that removably connects, can change second batch box, realization is to the adjusting of quantitative slot volume, as change second batch box (promptly changing the thickness of solid block 223) of different-thickness, then the volume of quantitative slot 215 also can correspondence change, thereby the amount of advancing powder and powder delivery also can change.Utilize the elastic force of first cramping body 41 of installing component, batch box 2 is pressed on the base plate 11 of storage tank 1, the lower surface that this batch box 2 can be close to this base plate rotates around the rotation of self, in order to realize the excellent sealing of batch box and base plate lower surface, preferably batch box and this lower surface plane contact.

In the present embodiment, the newel of storage tank also can be considered the part of dividing plate.Second cramping body of installing component also can have elasticity.

To shown in Figure 14, it is second embodiment of the present utility model as Fig. 8, and this rotary type is measured device and comprised storage tank 1, batch box 2, top cover 3 and installing component 4.This storage tank 1 comprises circular bottom plate 11, dividing plate 12 and the cross section side plate 13 for annular, this side plate 13 extends upward and crosses cylindrical can chamber 14 with this base plate 11 from the edge-perpendicular of this base plate 11, this dividing plate 12 connects this side plate 13 and base plates 11, and with this jar chamber 14 be divided into cut off mutually enter powder chamber 15 and powder delivery chamber 16.This base plate has and advances powder inlet 111 that powder chamber 15 is communicated with and the meal outlet 112 that is communicated with powder delivery chamber 16, and this powder inlet 111 and meal outlet 112 separate.

This batch box 2 comprises first batch box 21 and second batch box 22 that removably connects.This first batch box 21 is the cylindrical body of the up/down perforation of annular for the cross section, it has wall thickness thin first perisporium 211 and the second thicker perisporium 212 of wall thickness, this first perisporium 211 crosses mating cavity 213, this second perisporium 212 crosses installation cavity 214, the intersection of this first perisporium 211 and second perisporium 212 forms step surface 215, and the position of these first perisporium, 211 contiguous these step surfaces 215 is provided with at least one fixture block 216.This second batch box 22 comprises the cup-shaped cylinder 221 that is positioned at middle position and centers on these cylinder 221 equally distributed four cup-shaped host bodies 222, the opening of cylinder 221 and host body 222 up, each host body 222 all forms the quantitative slot 223 with a constant volume, the apical margin of the apical margin of cylinder 221 and each host body 222 is connected by a plate 224, and the edges of boards of this web joint 224 have the draw-in groove 225 corresponding with the fixture block 216 of batch box.

This installing component 4 comprises rubber-like first cramping body 41, vertical two second cramping bodies 43 extending of upwardly extending two connectors 42 in the two ends of this first cramping body 41 and respectively vertical this connector 42, these two second cramping bodies 43 are horizontal-extending in opposite directions, and this first cramping body 41 has the central block 411 with cup-shaped cylinder 221 coupling of second batch box.

This top cover 3 comprises first top cover 31 and second top cover 32 that separate to be provided with, and this first top cover 31 covers the open top of entering powder chamber 15 at storage tank by frictional fit, and this second top cover 32 covers open top in storage tank powder delivery chamber 16 by frictional fit.

During installation, with second batch box 22 pack into first batch box 21 installation cavity 214 and form a whole batch box 2, the web joint 224 of second batch box 22 is pressed on the step surface 215 of first batch box 21, the fixture block 216 of first batch box 21 snaps in the draw-in groove 225 of correspondence of web joint 224, realize removably connecting of first batch box 21 and second batch box 22, and this first batch box 21 and second batch box 22 can be rotated synchronously; The bottom of storage tank 1 is inserted in the mating cavity 213 of first batch box 21, the base plate 11 of storage tank 1 is pressed on the web joint 224 of second batch box 22.Two connectors 42 of installing component 4 are clamped storage tank 1 in the outside, first cramping body 41 of installing component 4 is pushed down batch box 2 (central block 431 withstands the cup-shaped cylinder 221 of second batch box 22), two second cramping bodies 43 of installing component 4 are pushed down first top cover 31 and second top cover 32 respectively, make this installing component 4, batch box 2, top cover 3 and storage tank 1 are assembled into one, and by first, two cramping bodies 41,43 elastic force, the lower surface 113 (being the lower surface 113 that the web joint 224 of batch box 2 is close to the storage tank base plate) that makes whole batch box 2 be pressed on storage tank base plate 11 is gone up and can pasted this lower surface 113 and rotates around rotation.

This batch box 2 has a plurality of working positions, in any one working position, all has at least a quantitative slot 223 to be communicated with the powder inlet 111 of base plate 11 and realizes powder, and all have at least another quantitative slot 223 to be communicated with the meal outlet 112 of base plate 11 and realize powder delivery.In the present embodiment,, there are three quantitative slots to advance powder, and a quantitative slot powder delivery is arranged in any one working position.

In the present embodiment, utilize the elasticity of installing component 4, batch box 2 is pressed on the matching surface of storage tank 1, this matching surface is the lower surface 113 of base plate.By the bottom of storage tank is inserted in the mating cavity 213 of batch box 2, make storage tank 1 and batch box 2 have better sealing property.By removably connecting between first batch box 21 and second batch box 22, can change second batch box 22, realize adjusting into and out of the powder volume.

As Figure 15 and shown in Figure 16, it is the 3rd embodiment of the present utility model.This rotary type is measured device and is comprised storage tank 1, rubber-like installing component 4, batch box 2 and top cover 3.This storage tank 1 comprises dividing plate 11 and the cross section side plate 12 for annular, and this side plate 12 crosses the cylindrical can chamber of up/down perforation, and this dividing plate 11 places and is connected one in this side plate 12 and with this side plate 12, and enters powder chamber 13 and powder delivery chamber 14 with what this jar chamber was divided into partition mutually.This batch box 2 comprises circular bottom wall 21, center wall 22 and the cross section perisporium 23 for annular, and this perisporium 23 extends upward from the edge-perpendicular of this diapire 21, and this center wall 22 extends vertically upward from the middle position of this diapire 21.This perisporium 23 has wall thickness thin first perisporium 231 and the second thicker perisporium 232 of wall thickness, this first perisporium 231 crosses mating cavity 233, the intersection of this first perisporium 231 and second perisporium 232 forms step surface 234, and this second perisporium 232, diapire 21 and center wall 22 cross measuring tank.This batch box 2 comprises that also with this center wall be the equally distributed radially a plurality of disc 235 in center, and each disc 235 all connects this second perisporium 232, diapire 21 and center wall 22, and this measuring tank is divided into disconnected a plurality of end quantitative slots 236 that have mutually.

This installing component 4 comprises rubber-like first cramping body 41, rubber-like second cramping body 43 that one bends out and the connector 42 that connects this first and second cramping body 41,43, and this first cramping body 41 has central block 411.

This top cover 3 comprises first top cover 31 and second top cover 32 that separate to be provided with, and this first top cover 31 covers the open top of entering powder chamber 13 at storage tank by frictional fit, and this second top cover 32 covers open top in the powder delivery chamber 14 of storage tank by frictional fit.

The mating cavity 233 of this batch box 2 is inserted in the bottom of this storage tank 1, and the side plate 12 of storage tank 1 and dividing plate 11 are pressed on the step surface 234 of batch box 2.The connector 42 of this installing component 4 is clamped this storage tank 1 in the outside, first cramping body 41 of this installing component 4 is pushed down this batch box 2, second cramping body 43 of this installing component 4 is pushed down this first top cover 31, this batch box 2, top cover 3, installing component 4 and storage tank 1 are assembled into one, and the elastic force by installing component 4, this batch box 2 is pressed on the matching surface of storage tank 1, and this matching surface is the surface that dividing plate 11 and side plate 12 contact with this batch box 2.

This batch box 2 has a plurality of working positions, when any one working position, has at least the powder chamber 13 of advancing of a quantitative slot 236 and storage tank 1 to be communicated with and to realize powder, and has at least another quantitative slot 236 to be communicated with the powder delivery chamber 14 of storage tank 1 and realize powder delivery.

In the present embodiment, the mating cavity 233 of batch box 2 is inserted in the bottom of storage tank 1, makes this storage tank 1 and batch box 2 have better sealing property.Utilize the elastic force of installing component 4, batch box 2 is pressed on the matching surface of storage tank 1, make batch box 2 in rotation process, be pressed on the matching surface of storage tank 1 with suitable elastic force always, can effectively reduce the movement clearance of batch box 2 and storage tank 1, can make batch box 2 motions smooth and easy again, thereby better reach function, and reduce requirement production and assembly precision.

To shown in Figure 22, it is the 4th embodiment of the present utility model as Figure 17.This rotary type is measured device and is comprised storage tank 1, batch box 2 and top cover 3.This storage tank 1 comprises that circular bottom plate 11, cross section are the side plate 12 of annular and the dividing plate 13 that connects this base plate 11 and side plate 12, this side plate 12 extends vertically upward and crosses a jar chamber with this base plate 11 from the circular edge of this base plate 11, this dividing plate 13 with this jar chamber be divided into cut off mutually enter powder chamber 14 and powder delivery chamber 15.This base plate 11 has and advances powder inlet 111 that powder chamber 14 is communicated with and the meal outlet 112 that is communicated with powder delivery chamber 15, and this powder inlet 111 and meal outlet 112 separate, and the lower surface 113 of this base plate 11 extends hollow jack-post 16 vertically downward.

This batch box 2 comprise have diapire 21, certainly the perisporium that extends upward of the edge-perpendicular of this diapire 21 22 and from the middle part of this diapire 21 the hollow centre wall 23 of extended up/down perforation vertically downward.This perisporium 22 comprises first perisporium 221 and the second thicker perisporium 222 of wall thickness that wall thickness is thin, this first perisporium 221 crosses mating cavity 223, this first perisporium 221 also has at least one positioning port 224, the intersection of this first perisporium 221 and second perisporium 222 forms step surface 225, and this second perisporium 222, diapire 21 and center wall 23 cross a measuring tank.This batch box 2 also comprise with center wall 23 be the center with the equally distributed a plurality of disc 24 of circumference, each disc 24 all connects second perisporium 222, diapire 21 and center wall 23, and this measuring tank is divided into a plurality of mutually disconnected end quantitative slots 25 that have.

This top cover 3 comprises first top cover 31 and second top cover 32 that separates setting.The open top that powder chamber 14 is entered in this first top cover 31 and storage tank 1 frictional fit and sealing, and this first top cover 31 has first opening 311 that is communicated with powder delivery chamber 15.This second top cover 32 cover first top cover 31 and with storage tank 1 frictional fit, and this second top cover 32 has second opening 321 with the 311 corresponding connections of first opening.This second top cover 32 also has the rotating shaft 322 that is used to install temporary spoon 4, and this temporary spoon 4 has the axis hole 41 corresponding with this rotating shaft 322.

During installation, the cooperation of the center wall 23 of the up/down perforation by batch box 2 and the jack-post 16 of storage tank 1, batch box 2 is enclosed within on the jack-post 16 of storage tank 1, and then load onto pad 5 and threaded fastener 6, this securing member 6 and jack-post 16 threaded engagement, and batch box 2 is pressed on the lower surface 113 of storage tank base plate 11, this storage tank 1 and batch box 2 are assembled into one.

In the present embodiment, first perisporium 221 of this batch box 2 has the first surface 226 of fitting with base plate 11, this center wall 23 has the second surface 231 of fitting with base plate 11, this first surface 226 is provided with annular first groove 227, this second surface 231 is provided with annular second groove 232, this first groove 227 is embedded in resilient first packing ring 7, this second groove 232 is embedded in resilient second packing ring 8, by embedding this first packing ring 7 and second packing ring 8, can effectively eliminate the movement clearance between batch box 2 and the storage tank 1.Should also be provided with shifting block 42 on the temporary spoon 4, and, can rotate this temporary spoon 4 or take off this temporary spoon 4 by this shifting block 42.After installing, this temporary spoon 4 and this second top cover 32 sealing and frictional fit, and be not easy to drop.This first packing ring 7 and second packing ring 8 are the rubber-like installing component.

This batch box 2 is in the rotation rotating process, have at least two working positions, in any one working position, all have at least a quantitative slot 25 to be communicated with, and all have at least another quantitative slot 25 to be communicated with the meal outlet 112 of base plate 11, the powder delivery chamber 15 of storage tank with the powder inlet 111 of base plate 11, the powder chamber 14 of advancing of storage tank.When advancing powder, the materials in the powder chamber 14 of advancing of storage tank fall into and are in the into quantitative slot of powder position; When needing powder delivery, storage tank 1 is inverted or the inclination certain angle, is made the powder delivery chamber 15 of material by storage tank in the quantitative slot that is in the powder delivery position fall into temporary spoon, rotate temporary spoon then or take temporary spoon 4 away, the material that can will keep in the spoon is poured out.

By storage tank 1 bottom is inserted in the mating cavity 223 of batch box 2, can realize excellent sealing performance between the two.By first packing ring 7 and second packing ring 8 are set, can realize the better sealing between batch box 2 and the storage tank 1.By temporary spoon 4 is set, when pouring into material in the hot water, the water vapor of hot water just can not enter storage tank 1, thereby prevents that effectively the material in the storage tank 1 from making moist.By projection 114 is set on the base plate 11 of storage tank 1, positioning port 224 is set on batch box 2, can effectively realize the accurate location of batch box 2 turned positions, and be convenient to determine powder outlet quantity.

As Figure 23 to Figure 25, it is the 5th embodiment of the present utility model.This rotary type is measured device and is comprised storage tank 1, batch box 2, top cover 3 and temporary spoon 4.This storage tank 1 comprises that the cross section is the side plate 11 of annular and the dividing plate 12 that is connected with this side plate 11, and this side plate 11 crosses jar chamber 13 of a up/down perforation, and this dividing plate 12 enters powder chamber 14 and powder delivery chamber 15 with what this jar chamber 13 was divided into partition mutually.The cross section that this batch box 2 comprises diapire 21 and is located at these diapire 21 edges is the perisporium 22 of annular, and this diapire 21 is provided with two quantitative slots 23 that the end is arranged, and this perisporium 22 is provided with thread segment 24.This top cover 3 is installed in the top of storage tank 1 by frictional fit, and the open top of entering powder chamber 14 of enclosed storage jar 1, and this top cover 3 has the opening 31 that is communicated with powder delivery chamber 15.This temporary spoon 4 tip upside down on the top cover 3 and with these top cover 3 seal frictions and cooperate, thereby was not easy to drop and leak powder.This batch box 2 is installed in the bottom (thread segment 24 of the bottom of storage tank 1 and perisporium 22 screws) of storage tank 1 by threaded engagement, and storage tank 1 is pressed on the diapire 21 of this batch box 2, and promptly batch box 2 is close on the matching surface of storage tank 1 and can pasting this matching surface and rotate.

This batch box 2 has two working positions, in any one working position, a quantitative slot 23 is all arranged and enter powder chamber 14 and be communicated with and have another quantitative slot 23 to be communicated with powder delivery chamber 15.By clockwise or rotate counterclockwise this batch box 2, can realize powder delivery by two quantitative slots respectively.When needing powder delivery, whole storage tank 1 is inverted or is toppled over certain angle, make the materials in the quantitative slot 23 that is in the powder delivery position fall into temporary spoon 4 by powder delivery chamber 15, top cover 3, by producing or remove temporary spoon 4, the materials that can will keep in the spoon 4 are poured out.By temporary spoon 4 is set, can prevent effectively that the material in the storage tank 1 from making moist.

A kind of rotary type is measured device, comprise storage tank and batch box, this storage tank has jar chamber and is positioned at the matching surface of its below, this jar chamber by dividing plate be divided into mutually cut off enter powder chamber and powder delivery chamber, this batch box is pressed on this matching surface and can pasting this matching surface and rotates around rotation, this batch box has that at least two of distributing around this rotation cut off mutually end quantitative slot, this batch box has at least two working positions on its rotary motion trace, when each working position, all have a quantitative slot at least and enter the powder chamber and be communicated with and have at least another quantitative slot to be communicated with the powder delivery chamber.This storage tank can comprise base plate, side plate and dividing plate, also can only comprise side plate and dividing plate.This matching surface is storage tank and batch box bonding surfaces, and this surface can be one or several in the surface of the surface of surface, side plate of base plate and dividing plate, also can be other and batch box bonding surfaces.This batch box can as a whole parts, also can comprise first batch box and second batch box that removably connect.

In the present embodiment, batch box can directly be fitted on the storage tank, also can be fitted in the bottom of storage tank by rubber-like installing component elasticity.Can be provided with mating cavity one of in the top of this batch box and the bottom of storage tank, another is pegged graft with this mating cavity and cooperates.Top cover can be stamped in the top of storage tank, also can not be stamped top cover.For the quantitative taking out device that is provided with top cover, this top cover can comprise first top cover and second top cover that separate to be provided with, and also can be a single top cover, or is connected but first top cover and second top cover that can overturn relatively.

Measure device for this rotary type, its each parts can use plastics, glass, pottery, metal or paper making.This rotary type is measured the quantitative fetching that device can be realized flowing materials such as powder, solid particle.

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. a rotary type is measured device, it is characterized in that: comprise storage tank and batch box, this storage tank has jar chamber and is positioned at the matching surface of its below, this jar chamber by dividing plate be divided into mutually cut off enter powder chamber and powder delivery chamber, this batch box is pressed on this matching surface and can pasting this matching surface and rotates around rotation, this batch box has that at least two of distributing around this rotation cut off mutually end quantitative slot, this batch box has at least two working positions on its rotary motion trace, when each working position, all have a quantitative slot at least and enter the powder chamber and be communicated with and have at least another quantitative slot to be communicated with the powder delivery chamber.

2. rotary type according to claim 1 is measured device, it is characterized in that: described batch box comprises first batch box and second batch box that removably connects, and respectively has end quantitative slot to be formed by this first batch box and second batch box.

3. rotary type according to claim 1 is measured device, it is characterized in that: described batch box comprises diapire, the extended perisporium in the edge of this diapire reaches from the extended center wall in the middle part of this diapire certainly, this center wall, diapire and perisporium cross measuring tank, this batch box also comprises at least one disc that distributes around this center wall, and each quantitative slot is promptly separated measuring tank by this disc and formed.

4. rotary type according to claim 1 is measured device, it is characterized in that: described storage tank comprises base plate and the side plate that extends from this bottom edge, this jar chamber is crossed by this base plate and side plate, this dividing plate connects this base plate and side plate, this matching surface is the surface of this base plate, this base plate has and advances powder inlet that the powder chamber is communicated with and the meal outlet that is communicated with the powder delivery chamber, and this meal outlet and powder inlet separate.

5. measure device according to any described rotary type among the claim 1-4, it is characterized in that: the described device of measuring also comprises the rubber-like installing component, and this batch box is fitted on the matching surface of this storage tank by this installing component elasticity.

6. rotary type according to claim 5 is measured device, it is characterized in that: top cover also is stamped in the top in described jar of chamber, installing component comprises first cramping body, connector and second cramping body that connects in turn, this first cramping body is pushed down batch box, this second cramping body is pushed down top cover, this connector connects this first cramping body and second cramping body, and has one of at least elasticity in this first cramping body and second cramping body.

7. measure device according to any described rotary type among the claim 1-4, it is characterized in that: top cover also is stamped in the top in described jar of chamber.

8. rotary type according to claim 7 is measured device, it is characterized in that: back-off has temporary spoon on the described top cover, and this temporary spoon is fitted with top seal.

9. measure device according to any described rotary type among the claim 1-4, it is characterized in that: be provided with mating cavity one of in the top of described batch box and the bottom of storage tank, the top of this batch box and in the bottom in the storage tank another insert this mating cavity.

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