CN204150454U - The tank of quantitative output powder - Google Patents

Abstract

The utility model provides a kind of tank of quantitative output powder, comprises powder quantitatively regulating mechanism, accommodating mechanism and powder output mechanism.Powder quantitatively regulating mechanism comprises the first main part, and is located at the quantity space in the first main part, and quantity space has the first opening and the second opening respectively in two sides.Accommodating mechanism comprises the second main part being hubbed at the first main part side, is located in order to lay in the accommodation space of powder in the second main part, and is located at the first corresponding discharging opening that the second main part side is communicated in accommodation space.Powder output mechanism comprises the 3rd main part being hubbed at the relative second main part opposite side of the first main part, be located at the blanking space in the 3rd main part, and be located at the 3rd main part side and be communicated in blanking space and the second corresponding discharging opening of discharging opening mutual dislocation corresponding to first, thus, the utility model overcomes powder and carries inconvenience, takes not easily and take the defect being difficult to measure, and can also solve the problem in cleaning and health thereof.

Description

The tank of quantitative output powder

Technical field

The utility model has about a kind of tank, espespecially a kind of tank of quantitative output powder.

Background technology

Modern is busy with one's work, especially for the head of a family reared children or the people being accustomed to edible powder powder complementary goods, when carrying the powder such as milk powder or high protein with it, often there is its inconvenience, the situation such as leaked outside with polythene bag packing easy generation broken hole, and its powder component carried is difficult to control, or need the extra soupspoon of metering or the container of using to take out when taking powder, taking-up process very easily allows again powder be scattered, and causes the dirty and messy of environment and hygienic issues.

The powder container that existing front case provides is correlated with to create and is still had the problem not meeting human body merit Yu run counter to common people's use habit, it is very inconvenient to take, and in the process of powder container cleaning, easily because the flaw in member designs cause clean on degree of difficulty, will be one to endanger greatly for the health of user for a long time.

Utility model content

The purpose of this utility model is the tank providing a kind of quantitative output powder, and this tank is performed to the rotary manipulation step of hommization, overcome powder to carry inconvenience, take not easily and take the problem being difficult to measure, in addition, the utility model can form by detachable component, uses the problem solved in cleaning and health thereof.

For solving the problem, the utility model discloses a kind of tank of quantitative output powder, it is characterized in that including:

A certain amount of powder regulating mechanism, it includes one first main part, and one is arranged at quantity space in this first main part, and this quantity space has one first opening and one second opening respectively in two sides;

One accommodating mechanism, it includes the second main part that is hubbed at this first main part side, one is arranged in order to lay in the accommodation space of powder in this second main part, and one is located at this second main part side with the can be communicated in this accommodation space first corresponding discharging opening; And

One powder output mechanism, include the 3rd main part that is hubbed at this first main part this second main part opposite side relative, one is arranged at the blanking space in the 3rd main part, and one be located at the 3rd main part side with can be communicated in this blanking space and with the second corresponding discharging opening of this first corresponding discharging opening mutual dislocation.

Wherein, this powder quantitatively regulating mechanism includes one and is arranged at first grip part of this first main part outer circumferential side for user's gripping, and this accommodating mechanism includes one and is arranged at second grip part of this second main part outer circumferential side for user's gripping.

Wherein, this accommodating mechanism includes one and is arranged at first grip part of this second main part outer circumferential side for user's gripping, and this powder output mechanism includes one and is arranged at second grip part of the 3rd main part outer circumferential side for user's gripping.

Wherein, this powder quantitatively regulating mechanism includes one and is arranged at first grip part of this first main part outer circumferential side for user's gripping, and this powder output mechanism includes one and is arranged at second grip part of the 3rd main part outer circumferential side for user's gripping.

Wherein, this powder quantitatively regulating mechanism includes one and is switched to one first angle to make the first state of this first opening and this first corresponding discharging opening overlap in this first main part relative to this second main part, and one is switched to one second angle to make the second state of this second opening and this second corresponding discharging opening overlap in this first main part relative to the 3rd main part.

Wherein, this powder quantitatively regulating mechanism includes one or two and is arranged at position-limited trough on this first main part, this accommodating mechanism and/or this powder output mechanism include one be arranged at this second main part and/or the 3rd main part correspond to movement in this position-limited trough knock bar.

Wherein, this position-limited trough includes one, and corresponding to this first angle limits, this knocks the first positive stop end of the throw of lever, one corresponds to this second angle limits, and this knocks the second positive stop end of the throw of lever, and one knocks for this rotation path that bar vacillates between this first positive stop end and this second positive stop end.

Wherein, this accommodating mechanism includes a correspondence and is arranged at this and knocks in bar and towards the positioning groove of the 3rd main part direction opening, and this powder output mechanism includes one and to be arranged on the 3rd main part and to should the radius stay that arranges of positioning groove.

Wherein, this powder output mechanism includes a correspondence and is arranged at this and knocks in bar and towards the positioning groove of this first main part direction opening, and this accommodating mechanism includes one and to be arranged on this first main part and to should the radius stay that arranges of positioning groove.

Wherein, this accommodating mechanism and/or this powder output mechanism include one and are arranged at position-limited trough on this second main part and/or the 3rd main part, this powder quantitatively regulating mechanism include one or two be arranged at this first main part side or two sides and correspond to movement in this position-limited trough knock bar.

Wherein, this position-limited trough includes one, and corresponding to this first angle limits, this knocks the first positive stop end of the throw of lever, one corresponds to this second angle limits, and this knocks the second positive stop end of the throw of lever, and one knocks for this rotation path that bar vacillates between this first positive stop end and this second positive stop end.

Wherein, this accommodating mechanism includes one and is incorporated into the first pivot corresponding to the side of this first main part on this second main part, and this powder quantitatively regulating mechanism includes one and is incorporated into this first main part side and is articulated in the second pivot on this first pivot.

Wherein, this powder output mechanism includes one and is incorporated into the 3rd pivot structure corresponding to the side of this first main part on the 3rd main part, and this powder quantitatively regulating mechanism includes one and is incorporated into this first main part side and is articulated in the 4th pivot on the 3rd pivot.

Wherein, this powder quantitatively regulating mechanism includes one and is arranged at axis hole on this first main part, and one to be hubbed on this axis hole and Yu Erduan is individually fixed in the pivot of this second main part and the 3rd main part.

Wherein, the 3rd main part includes one to be had the outer of this blanking space and draws a bow to the full, and one is hubbed at this outer side have the blanking rotating disk of this second corresponding discharging opening of drawing a bow to the full, the side that this blanking rotating disk is fixed on this pivot with this second main part rotating Vortex.

Therefore the utility model has following advantage effect compared with known techniques:

1. the utility model is with the use of the operating habit of person, be designed to person easy to use and hold the structure turned, when user holds turn the first grip part and the second grip part makes it relatively rotate, the amount of powder of time quantitative output user institute for output can be determined, not only be convenient to user carry, be also convenient to user and allocate required amount of powder.

2. the utility model is further provided with and knocks the structure such as bar and position-limited trough, user can in gripping force suitable in rotary course, by by knocking bar, corresponding first positive stop end or the second positive stop end knock produced deformation and vibrations make agglomerated particle relax respectively, contributing to powder falls into this quantity space by accommodation space, solves the problem of known techniques powder agglomates blocking.

Accompanying drawing explanation

Fig. 1 is the schematic appearance according to the utility model first embodiment.

Fig. 2 is the generalized section according to the utility model first embodiment.

Fig. 3 A and Fig. 3 B is the STRUCTURE DECOMPOSITION schematic diagram of the utility model first embodiment.

Fig. 4 A and Fig. 4 B is the STRUCTURE DECOMPOSITION schematic diagram of the utility model second embodiment.

Fig. 5 is the generalized section according to the utility model second embodiment.

Fig. 6 A and Fig. 6 B is the STRUCTURE DECOMPOSITION schematic diagram of the utility model the 3rd embodiment.

Fig. 7 A and 7B is the STRUCTURE DECOMPOSITION schematic diagram of the utility model the 4th embodiment.

Fig. 8 A and 8B is the STRUCTURE DECOMPOSITION schematic diagram of the utility model the 5th embodiment.

Fig. 9 A and 9B is the STRUCTURE DECOMPOSITION schematic diagram of the utility model the 6th embodiment.

Detailed description of the invention

Hereby lifting a preferred embodiment with regard to the architectural feature of this case and operating mode, and coordinate and illustrate, after being sincerely set forth in, consulting in order to do providing examination.Moreover graphic in the utility model, for convenience of explanation, its ratio may not be drawn by actual ratio, and has situation about exaggerating, and these graphic and ratios are not used to limit scope of the present utility model.

First embodiment:

Diagram is below coordinated to be described in detail for the outward appearance of first embodiment of the invention and thin portion structure, see also " Fig. 1 " to " Fig. 3 A and Fig. 3 B ", be respectively the schematic appearance of the utility model first embodiment, generalized section and STRUCTURE DECOMPOSITION schematic diagram, as shown in the figure:

The present embodiment provides a kind of tank 100, and this tank 100 includes powder quantitatively regulating mechanism 110, accommodating mechanism 120 and powder output mechanism 130.This powder quantitatively regulating mechanism 110 includes the first main part 111, is arranged at the quantity space 112 in the first main part 111, and is arranged at the first main part 111 outer circumferential side for user's gripping and the first grip part 114 rotated.Quantity space 112 has the first opening 112a and the second opening 112b respectively in two sides.This accommodating mechanism 120 includes the second main part 121 being hubbed at the first main part 111 side, be arranged in order to lay in the accommodation space 122 of powder in the second main part 121, and be arranged at the second main part 121 outer circumferential side for user's gripping and the second grip part 124 rotated.Second main part 121 side is provided with the first corresponding discharging opening 123 being communicated in accommodation space 122.Powder output mechanism 130 includes the 3rd main part 131 being hubbed at relative second main part 121 opposite side of the first main part 111, and is arranged at the blanking space 132 in the 3rd main part 131.3rd main part 131 side is provided with and is communicated in blanking space 132 and the second corresponding discharging opening 133 of discharging opening 123 mutual dislocation corresponding to first.

In " mutual dislocation " described in the utility model, refer to that with the first main part 111 be that the first angle is set out, for the second main part 121 and the 3rd main part 131.In the present embodiment, this powder quantitatively regulating mechanism 110 includes one and is arranged at axis hole 115 on this first main part 111, and one to be hubbed on this axis hole 115 and Yu Erduan is individually fixed in the pivot 116 of this second main part 121 and the 3rd main part 131.Two ends of this pivot 116 are respectively arranged with a pawl part 116a, 116b, on this second main part 121 and the 3rd main part 131, be respectively arranged with a positioning groove 126,136, the mode that this pawl part 116a, 116b and this positioning groove 126,136 close by tenon respectively interfixes.When the second main part 121 and the 3rd main part 131 by this pivot 116 corresponding in conjunction with time, the two has identical pivoting angle each other when pivotable.When this first main part 111 is switched to the first angle to the second main part 121 (the 3rd main part 131) relatively, the first opening 112a on the upside of this quantity space 112 corresponds to the first corresponding discharging opening 123 of upper end; In time being switched to the second angle, the second opening 112b on the downside of this quantity space 112 corresponds to the second corresponding discharging opening 133 of lower end.In another embodiment of the present embodiment (not shown), because the second main part 121 corresponds to the 3rd main part 131 pivotable in the same way, the second described grip part 124 also can be arranged at the 3rd main part 131 outer circumferential side, grips and rotate for user.

User can in advance by repeatedly using the powder packing of deal to enter among accommodation space 122, to take when going out.When user for powder stored in accommodation space 122 is taken out further time, first, user can grip the first grip part 114 respectively by both hands and the second grip part 124 makes the first main part 111 relative to the second main part 121 pivotable, makes the first main part 110 this second main part relative be switched to the first angle and makes the first opening 112a discharging opening 123 corresponding to first overlapping.By this, the powder in accommodation space 122 can fall into quantity space 112, is now the first state of tank 100.The powder total amount that quantity space 112 can hold can be average powder single use amount, such as, can be the milk powder amount of average each child one meal.Described powder quantitatively regulating mechanism 110 also can be replaced according to the demand of user, provides plural number to plant the powder quantitatively regulating mechanism 110 with different deal by this and selects for user.After quantity space 112 has filled up the powder that accommodation space 122 falls into, user can grip the first grip part 114 respectively by both hands and the second grip part 124 makes the first main part 111 relative to the second main part 121 towards other direction pivotable, first main part 111 is switched to the second angle to make the second opening 112b discharging opening 133 corresponding to second overlapping, allowing the powder in quantity space 112 fall into blanking space 132, is now the second state of tank 100.By this, user just can take out from blanking space 132 by the powder of single use amount.When tank 100 is left the first angle and not yet rotates to the second angle by user, because not corresponding with first discharging opening 123 of the first opening 112a is overlapping, the sidewall that now the first main part 111 corresponds to the side of the second main part 121 can be fitted and be sealed the first corresponding discharging opening 123, continue to drop out to stop the powder in accommodation space 122, simultaneously, because not yet corresponding with second discharging opening 133 of the second opening 112b is overlapping, the sidewall that now the 3rd main part 131 corresponds to the side of the first main part 111 can be fitted and be sealed the second opening 112b, drop out to stop the powder in quantity space 112.Because the second main part 121 and the 3rd main part 131 are fixed with two ends of pivot 116 respectively in the present embodiment, keep the state of mutual dislocation between the first corresponding discharging opening 123 discharging opening 133 corresponding to second, can avoid powder continues to fall into from accommodation space 122 blanking space 132 situation through quantity space 112 occurs.By this, repeatedly taking out the process of powder, without the need to taking, other measures the container of amount of powder or soupspoon to user, easily powder can be taken out, use very convenient and health.

In addition, in the utility model, user can be disassembled above-mentioned pivot, pawl part easily, use separated powder regulating mechanism 110, accommodating mechanism 120 and powder output mechanism 130, it contributes to cleaning, is also not easy to shelter evil people and countenance evil practices, assembles also very easy afterwards.

For gripping the particular design rotated, several different embodiment can be further enumerated below for coordinating the utility model tank:

Second embodiment:

See also STRUCTURE DECOMPOSITION schematic diagram and generalized section that " Fig. 4 A and Fig. 4 B " and " Fig. 5 " is the second embodiment of the present utility model, as shown in the figure:

The present embodiment provides a kind of tank 200, and this tank 200 includes powder quantitatively regulating mechanism 210, accommodating mechanism 220 and powder output mechanism 230.This powder quantitatively regulating mechanism 210 includes the first main part 211, and is arranged at the quantity space 212 in the first main part 211.Quantity space 212 has the first opening 212a and the second opening 212b respectively in two sides.This accommodating mechanism 220 includes the second main part 221 being hubbed at the first main part 211 side, be arranged in order to lay in the accommodation space 222 of powder in the second main part 221, and be arranged at the second main part 221 outer circumferential side for user's gripping and the first grip part 224 rotated.Second main part 221 side is provided with the first corresponding discharging opening 223 being communicated in accommodation space 222.Powder output mechanism 230 includes the 3rd main part 231 being hubbed at relative second main part 221 opposite side of the first main part 211, be arranged at the blanking space 232 in the 3rd main part 231, and be arranged at second grip part 234 of the 3rd main part 231 outer circumferential side for user's gripping (in the operation of the present embodiment reality, user can hold with a firm grip the outer peripheral edges (the first grip part 224) of the second main part 221 on the other hand, and simultaneously hold with a firm grip the outer peripheral edges (the second grip part 234) of the first main part 211 and the 3rd main part 231 of another hand operate).3rd main part 231 side is provided with and is communicated in blanking space 232 and the second corresponding discharging opening 233 of discharging opening 223 mutual dislocation corresponding to first.

In the present embodiment, this powder quantitatively regulating mechanism 210 includes one and is arranged at position-limited trough 217 on this first main part 211, and in the present embodiment, this position-limited trough 217 corresponds to this second main part 221 in a side opening.This accommodating mechanism 220 (and/or this powder output mechanism 230) includes one and is arranged at this second main part 221 (and/or the 3rd main part 231) knocks bar (the utility model does not get rid of the style of will knock bar 227 and to be arranged on the 3rd main part 231, position-limited trough 217 to be corresponded to the 3rd main part 231 opening, does not also get rid of position-limited trough 217 to be arranged at this second main part 221, the 3rd main part 231, will to knock bar 227 and be arranged at the aspect of the first main part 211).The described bar 227 that knocks is inserted in this position-limited trough 217, and when the second main part 221 and the 3rd main part 231 relative this first main part 211 pivotable, corresponding to mobile in this position-limited trough 217.This powder quantitatively regulating mechanism 210 includes one and is arranged at axis hole 215 on this first main part 211, and one to be hubbed on this axis hole 215 and Yu Erduan is individually fixed in the pivot 216 of this second main part 221 and the 3rd main part 231.Two ends of this pivot 216 are respectively arranged with a pawl part 216a, 216b, are respectively arranged with a positioning groove 226,236 on this second main part 221 and the 3rd main part 231, and the mode of closing by tenon interfixes.This position-limited trough 217 includes one, and corresponding to this first angle limits, this knocks the first positive stop end 217a of bar 227 stroke, one corresponds to this second angle limits, and this knocks the second positive stop end 217b of bar 227 stroke, and one knocks the rotation path 217R of bar 227 movement for this between this first positive stop end 217a and this second positive stop end 217b.3rd main part 231 includes the outer 231a that draws a bow to the full that has this blanking space 232, and one is hubbed at this outer 231a of drawing a bow to the full side and has the blanking rotating disk 231b of this second corresponding discharging opening 233, the side that this blanking rotating disk 231b is fixed on this pivot 216 is used and this second main part 221 rotating Vortex.

In the present embodiment, described blanking rotating disk 231b can be assembled in the outer portion OF of this outer 231a opening of drawing a bow to the full by the articulating part IF correspondence at its outer shroud edge, by this, this blanking rotating disk 231b may correspond in this outer 231a pivotable of drawing a bow to the full.By this second main part 221 of rotation, this blanking rotating disk 231b drives pivotable by this pivot 216 correspondence in the same way, and the blanking rotating disk 231b 231a that can externally draw a bow to the full mutually is rotated towards different directions.By this, the first corresponding discharging opening 223 on this second main part 221 and the second corresponding discharging opening 233 on this blanking rotating disk 231b can remain on the state of mutual dislocation.

Described knock bar 227 and be pivoted relative to each other except angle except what be used in that restriction second main part 221 and blanking rotating disk 231b correspond to the first main part 211, when the first main part 211 this second main part 221 relative is switched to the first angle or the second angle by user's force, will knock bar 227 and the first positive stop end 217a or the second positive stop end 217b that can be appropriate collide, use and affect the second main part 221 and produce some temporary deformation and vibrations, powder by this in accommodation space can be more prone to fall into quantity space because of some temporary deformation for this reason and vibrations.

3rd embodiment:

Seeing also " Fig. 6 A " and " Fig. 6 B ", is the decomposing schematic representation of the utility model the 3rd embodiment, as shown in the figure:

The present embodiment provides a kind of tank 300, and this tank 300 includes powder quantitatively regulating mechanism 310, accommodating mechanism 320 and powder output mechanism 330.This powder quantitatively regulating mechanism 310 includes the first main part 311, is arranged at the quantity space 312 in the first main part 311, and is arranged at the first main part 311 outer circumferential side for user's gripping and the first grip part 314 rotated.Quantity space 312 has the first opening 312a and the second opening 312b respectively in two sides.This accommodating mechanism 320 includes the second main part 321 being hubbed at the first main part 311 side, be arranged in order to lay in the accommodation space (this figure does not show) of powder in the second main part 321, and be arranged at the second main part 321 outer circumferential side for user's gripping and the second grip part 324 rotated.Second main part 321 side is provided with the first corresponding discharging opening 323 being communicated in accommodation space.Powder output mechanism 330 includes the 3rd main part 331 being hubbed at relative second main part 321 opposite side of the first main part 311, and is arranged at the blanking space (this figure does not show) in the 3rd main part 331.3rd main part 331 side is provided with and is communicated in blanking space and the second corresponding discharging opening 333 of discharging opening 323 mutual dislocation corresponding to first.

In the present embodiment, this powder quantitatively regulating mechanism 310 includes one and is arranged at position-limited trough 317 on this first main part 311, and this position-limited trough 317 this first main part 311 through also corresponds to this second main part 321 and the 3rd main part 331 respectively in two side openings.This accommodating mechanism 320 and this powder output mechanism 330 include one respectively and are arranged at knocking bar 327 and knocking bar 337 on this second main part 321 and the 3rd main part 331.Described knocks bar 327 and knocks bar 337 corresponding inserted in this position-limited trough 317.Be respectively arranged with one first location division 328,338 in this end knocking bar 327,337, correspond to this position of knocking bar 337 in the second main part 321 side and be provided with one second location division 329, corresponding to this first location division 338 secure bond; Similarly, correspond to this position of knocking bar 327 in the 3rd main part 331 side and be provided with one second location division 339, corresponding to this first location division 328 secure bond, make this first corresponding discharging opening 323 and this second corresponding discharging opening 333 keep the state misplaced each other by this, and increase the compactedness knocking bar 327,337.When the second main part 321 and the 3rd main part 331 relative this first main part 311 pivotable, this knocks bar 327,337 and corresponds in this position-limited trough 317 mobile.This position-limited trough 317 includes one, and corresponding to this first angle limits, this knocks the first positive stop end 317a of bar 327 stroke, one corresponds to this second angle limits, and this knocks the second positive stop end 317b of bar 337 stroke, and one knocks the rotation path 317R of bar 327,337 movement for this between this first positive stop end 317a and this second positive stop end 317b.

This powder quantitatively regulating mechanism 310 includes axis hole 315a, 315b of being arranged at this first main part 311 2 side respectively, wherein, axis hole 315a is arranged at the side of this first main part 311 corresponding to the second main part 321, and axis hole 315b is arranged at the side of this first main part 311 corresponding to the 3rd main part 331.This accommodating mechanism 320 and this powder output mechanism 330 include one respectively and are arranged at convex axle 326,336 on this second main part 321 and the 3rd main part 331, correspondence is hubbed on this axis hole 315a, 315b respectively, makes this second main part 321 and the 3rd main part 331 can correspond to this first main part 311 pivotable.

Described knocks bar 327, 337 are pivoted relative to each other except angle except what be used in that restriction second main part 321 and the 3rd main part 331 correspond to the first main part 311, when the first main part 311 this second main part 321 relative is switched to the first angle or the second angle by user's force, can appropriateness will knock bar 327 and the first positive stop end 317a collides, maybe will knock bar 337 and the second positive stop end 317b collides, use and affect the second main part 321 and produce some temporary deformation and vibrations, powder by this in accommodation space can be more prone to fall into quantity space because of some temporary deformation for this reason and vibrations.

4th embodiment:

Seeing also " Fig. 7 A " and " Fig. 7 B ", is the STRUCTURE DECOMPOSITION schematic diagram of the utility model the 4th embodiment, as shown in the figure:

The present embodiment provides a kind of tank 400, and this tank 400 includes powder quantitatively regulating mechanism 410, accommodating mechanism 420 and powder output mechanism 430.This powder quantitatively regulating mechanism 410 includes the first main part 411, and is arranged at the quantity space 412 in the first main part 411.Quantity space 412 has the first opening 412a and the second opening 412b respectively in two sides.This accommodating mechanism 420 includes the second main part 421 being hubbed at the first main part 411 side, be arranged in order to lay in the accommodation space (this figure does not show) of powder in the second main part 421, and be arranged at the second main part 421 outer circumferential side for user's gripping and the first grip part 424 rotated.Second main part 421 side is provided with the first corresponding discharging opening 423 being communicated in accommodation space.Powder output mechanism 430 includes the 3rd main part 431 being hubbed at relative second main part 421 opposite side of the first main part 411, be arranged at the blanking space (this figure does not show) in the 3rd main part 431, and be arranged at the 3rd main part 431 outer circumferential side for user's gripping and the second grip part 434 rotated.3rd main part 431 side is provided with and is communicated in blanking space and the second corresponding discharging opening 433 of discharging opening 423 mutual dislocation corresponding to first.

In the present embodiment, this powder quantitatively regulating mechanism 410 includes position-limited trough 417A, 417B that two are arranged at this first main part 411 2 side respectively, wherein position-limited trough 417A is arranged at the side corresponding to the second main part 421 on this first main part 411, and this position-limited trough 417B is arranged at the side corresponding to the 3rd main part 431 on this second main part 421.This accommodating mechanism 420 and this powder output mechanism 430 include one respectively and are arranged at knocking bar 427 and knocking bar 437 on this second main part 421 and the 3rd main part 431.Described knocks bar 427 and knocks bar 437 difference corresponding inserted in this position-limited trough 417A and position-limited trough 417B.When the second main part 421 and the 3rd main part 431 relative this first main part 411 pivotable, this knocks bar 427,437 and corresponds in this position-limited trough 417A and position-limited trough 417B mobile.This position-limited trough 417A includes one, and corresponding to this first angle limits, this knocks the first positive stop end 417a of bar 427 stroke, one corresponds to this second angle limits, and this knocks the second positive stop end 417b of bar 427 stroke, and one knocks the rotation path 417R of bar 427 movement for this between this first positive stop end 417a and this second positive stop end 417b.Similarly in opposite side, this position-limited trough 417B includes one, and corresponding to this first angle limits, this knocks the first positive stop end 417c of bar 437 stroke, one corresponds to this second angle limits, and this knocks the second positive stop end 417d of bar 437 stroke, and one knocks the rotation path 417L of bar 437 movement for this between this first positive stop end 417c and this second positive stop end 417d.

This powder quantitatively regulating mechanism 410 includes axis hole 415a, 415b of being arranged at this first main part 411 2 side respectively, wherein, axis hole 415a is arranged at the side of this first main part 411 corresponding to the second main part 421, and axis hole 415b is arranged at the side of this first main part 411 corresponding to the 3rd main part 431.This accommodating mechanism 420 and this powder output mechanism 430 include one respectively and are arranged at convex axle 426,436 on this second main part 421 and the 3rd main part 431, correspondence is hubbed on this axis hole 415a, 415b respectively, makes this second main part 421 and the 3rd main part 431 can correspond to this first main part 411 pivotable.

Described knocks bar 427, 437 are pivoted relative to each other except angle except what be used in that restriction second main part 421 and the 3rd main part 431 correspond to the first main part 411, when the first main part 411 this second main part 421 relative is switched to the first angle and the second angle by user's force, can appropriateness will knock bar 427 and the first positive stop end 417a collides, maybe will knock bar 427 and the second positive stop end 417b collides (in like manner, position-limited trough 417B with to knock between bar 437 corresponding as the same), use and affect the second main part 421 and produce some temporary deformation and vibrations, powder by this in accommodation space can be more prone to fall into quantity space because of some temporary deformation for this reason and vibrations.

5th embodiment:

Seeing also " Fig. 8 A " and " Fig. 8 B ", is the STRUCTURE DECOMPOSITION schematic diagram of the utility model the 5th embodiment, as shown in the figure:

The present embodiment provides a kind of tank 500, and this tank 500 includes powder quantitatively regulating mechanism 510, accommodating mechanism 520 and powder output mechanism 530.This powder quantitatively regulating mechanism 510 includes the first main part 511, and is arranged at the quantity space 512 in the first main part 511.Quantity space 512 has the first opening 512a and the second opening 512b respectively in two sides.This accommodating mechanism 520 includes the second main part 521 being hubbed at the first main part 511 side, be arranged in order to lay in the accommodation space (this figure does not show) of powder in the second main part 521, and be arranged at the second main part 521 outer circumferential side for user's gripping and the first grip part 524 rotated.Second main part 521 side is provided with the first corresponding discharging opening 523 being communicated in accommodation space.Powder output mechanism 530 includes the 3rd main part 531 being hubbed at relative second main part 521 opposite side of the first main part 511, be arranged at the blanking space (this figure does not show) in the 3rd main part 531, and be arranged at the 3rd main part 531 outer circumferential side for user's gripping and the second grip part 534 rotated.3rd main part 531 side is provided with and is communicated in blanking space and the second corresponding discharging opening 533 of discharging opening 523 mutual dislocation corresponding to first.

In the present embodiment, this accommodating mechanism 520 includes one and is arranged at this first main part 511 side and is stretched by this epitaxial lateral overgrowth and outstanding knock bar 527, the described first corresponding discharging opening 523 correspondence is arranged at this knocks on bar 527.This powder quantitatively regulating mechanism includes one and is arranged at the position-limited trough 517 of this first main part 511 corresponding to this second main part 521 side, this position-limited trough 517 knocks bar 527 corresponding to this and knocks bar 527 for this and plugs, this position-limited trough 517 includes one, and corresponding to this first angle limits, this knocks the first positive stop end 517a of bar 527 stroke, one corresponds to this second angle limits, and this knocks the second positive stop end 517b of bar 527 stroke, and one knocks the rotation path 517R of bar 527 movement for this between this first positive stop end 517a and this second positive stop end 517b.Wherein, the first opening of this quantity space corresponds to the position of this first positive stop end.In opposite side, this powder quantitatively regulating mechanism includes one and is arranged at this first main part 511 and stretches corresponding to the 3rd main part side and by this epitaxial lateral overgrowth and outstanding knock bar 518, the second described opening 512b correspondence is arranged at this knocks on bar 518.This powder output mechanism 530 includes one and is arranged at the position-limited trough 538 of the 3rd main part 531 corresponding to this first main part 511 side.This position-limited trough 538 knocks bar 518 corresponding to this and knocks bar 518 for this and plugs, this position-limited trough 518 includes one, and corresponding to this first angle limits, this knocks the first positive stop end 538a of bar 518 stroke, one corresponds to this second angle limits, and this knocks the second positive stop end 538b of bar 518 stroke, and one knocks the rotation path 538R of bar 518 movement for this between this first positive stop end 538a and this second positive stop end 538b.Wherein, second of this powder output mechanism the corresponding discharging opening system corresponds to the position of this second positive stop end 538b.

This accommodating mechanism 520 includes one and is incorporated into the first pivot J1 corresponding to the side of this first main part 511 on this second main part 521, and this powder quantitatively regulating mechanism 510 includes one and is incorporated into this first main part 511 side and is articulated in the second pivot J2 on this first pivot J1.This powder output mechanism 531 includes one and is incorporated into the 3rd pivot structure K1 corresponding to this first main part 511 side on the 3rd main part 531, and this powder quantitatively regulating mechanism 510 includes one and is incorporated into this first main part 511 side and is articulated in the 4th pivot K2 on the 3rd pivot K1.By the combination of above correspondence, make this second main part 521 and the 3rd main part 531 can correspond to this first main part 511 pivotable.

Described knocks bar 527, 518 are pivoted relative to each other except angle except what be used in that restriction second main part 521 and the 3rd main part 531 correspond to the first main part 511, when the first main part 511 this second main part 521 relative is switched to the first angle and the second angle by user's force, can appropriateness will knock bar 527 and the first positive stop end 517a collides, maybe will knock bar 527 and the second positive stop end 517b collides (in like manner, position-limited trough 538 with to knock between bar 518 corresponding as the same), use and affect the second main part 521 and produce some temporary deformation and vibrations, powder by this in accommodation space can be more prone to fall into quantity space because of some temporary deformation for this reason and vibrations.

6th embodiment:

Seeing also " Fig. 9 A " and " Fig. 9 B ", is the STRUCTURE DECOMPOSITION schematic diagram of the utility model the 6th embodiment, as shown in the figure:

The present embodiment provides a kind of tank 600, and this tank 600 includes powder quantitatively regulating mechanism 610, accommodating mechanism 620 and powder output mechanism 630.This powder quantitatively regulating mechanism 610 includes the first main part 611, is arranged at the quantity space 612 in the first main part 611, and is arranged at this first main part 611 outer circumferential side for user's gripping and the first grip part 614 rotated.Quantity space 612 has the first opening 612a and the second opening 612b respectively in two sides.This accommodating mechanism 620 includes the second main part 621 being hubbed at the first main part 611 side, be arranged in order to lay in the accommodation space (this figure does not show) of powder in the second main part 621, and be arranged at the second main part 621 outer circumferential side for user's gripping and the second grip part 624 rotated.Second main part 621 side is provided with the first corresponding discharging opening 623 being communicated in accommodation space.Powder output mechanism 630 includes the 3rd main part 631 being hubbed at relative second main part 621 opposite side of the first main part 611, and is arranged at the blanking space (this figure does not show) in the 3rd main part 631.3rd main part 631 side is provided with and is communicated in blanking space and the second corresponding discharging opening 633 of discharging opening 623 mutual dislocation corresponding to first.

In the present embodiment, this powder quantitatively regulating mechanism 610 includes one and is arranged at position-limited trough 617 on this first main part 611, and this position-limited trough 617 this first main part 611 through also corresponds to this second main part 621 and the 3rd main part 631 respectively in two side openings.This accommodating mechanism 620 includes one and is arranged at this second main part 621 knocks bar 627, and one correspondence be arranged at this and knock in bar 627 and towards the positioning groove 628 of the 3rd main part 631 direction opening, described knocks bar 627 corresponding inserted in this position-limited trough 617.This powder output mechanism include a pair should positioning groove 628 arrange radius stay 638, in time combining, this radius stay 638 correspondence be inserted in this positioning groove 628, this one end of knocking bar 627 is made to be fixed on the 3rd main part 631 by the correspondence combination between this radius stay 638 and positioning groove 628, this first corresponding discharging opening 623 and this second corresponding discharging opening 633 is made to keep the state misplaced each other by this, and (described knocks bar 627 to increase the compactedness knocking bar 627, positioning groove 628 also can be arranged on the 3rd main part 631, described radius stay 638 also can be arranged on this first main part 611, in the utility model not for limiting).When the second main part 621 and the 3rd main part 631 relative this first main part 611 pivotable, this knocks bar 627 and corresponds in this position-limited trough 617 mobile.This position-limited trough 617 includes one, and corresponding to this first angle limits, this knocks the first positive stop end 617a of bar 627 stroke, one corresponds to this second angle limits, and this knocks the second positive stop end 617b of bar 627 stroke, and one knocks the rotation path 617R of bar 627 movement for this between this first positive stop end 617a and this second positive stop end 617b.

This powder quantitatively regulating mechanism 610 includes axis hole 615a, 615b of being arranged at this first main part 611 2 side respectively, wherein, axis hole 615a is arranged at the side of this first main part 611 corresponding to the second main part 621, and axis hole 615b is arranged at the side of this first main part 611 corresponding to the 3rd main part 631.This accommodating mechanism 620 and this powder output mechanism 630 include one respectively and are arranged at convex axle 626,636 on this second main part 621 and the 3rd main part 631, correspondence is hubbed on this axis hole 615a, 615b respectively, makes this second main part 621 and the 3rd main part 631 can correspond to this first main part 611 pivotable.

Described knock bar 627 and be pivoted relative to each other except angle except what be used in that restriction second main part 621 and the 3rd main part 631 correspond to the first main part 611, when the first main part 611 this second main part 621 relative is switched to the first angle and the second angle by user's force, can appropriateness will knock bar 627 and the first positive stop end 617a collides, maybe will knock bar 627 and the second positive stop end 617b collides, use and affect the second main part 621 and produce some temporary deformation and vibrations, powder by this in accommodation space can be more prone to fall into quantity space because of some temporary deformation for this reason and vibrations.

In sum, the utility model is with the use of the operating habit of person, be designed to person easy to use and hold the structure turned, when user holds turn the first grip part and the second grip part makes it relatively rotate, the amount of powder of time quantitative output user institute for output can be determined, not only be convenient to user carry, be also convenient to user and allocate required amount of powder.In addition, the utility model is further provided with and knocks the structure such as bar and position-limited trough, user can in gripping force suitable in rotary course, by by knocking bar, corresponding first positive stop end or the second positive stop end knock produced deformation and vibrations make agglomerated particle relax respectively, contributing to powder falls into this quantity space by accommodation space, solves the problem of known techniques powder agglomates blocking.

The utility model above-mentioned preferred embodiment of mat is described in more detail, only the utility model is not limited to above-mentioned illustrated embodiment, within the scope of all technological thoughts disclosed at the utility model, make various changes these structures and modify, these changes and modification still belong to scope of the present utility model.

Claims (15)

1. quantitatively export a tank for powder, it is characterized in that including:

A certain amount of powder regulating mechanism, it includes one first main part, and one is arranged at quantity space in this first main part, and this quantity space has one first opening and one second opening respectively in two sides;

One accommodating mechanism, it includes the second main part that is hubbed at this first main part side, one is arranged in order to lay in the accommodation space of powder in this second main part, and one is located at this second main part side with the can be communicated in this accommodation space first corresponding discharging opening; And

One powder output mechanism, include the 3rd main part that is hubbed at this first main part this second main part opposite side relative, one is arranged at the blanking space in the 3rd main part, and one be located at the 3rd main part side with can be communicated in this blanking space and with the second corresponding discharging opening of this first corresponding discharging opening mutual dislocation.

2. tank as claimed in claim 1, it is characterized in that, this powder quantitatively regulating mechanism includes one and is arranged at first grip part of this first main part outer circumferential side for user's gripping, and this accommodating mechanism includes one and is arranged at second grip part of this second main part outer circumferential side for user's gripping.

3. tank as claimed in claim 1, it is characterized in that, this accommodating mechanism includes one and is arranged at first grip part of this second main part outer circumferential side for user's gripping, and this powder output mechanism includes one and is arranged at second grip part of the 3rd main part outer circumferential side for user's gripping.

4. tank as claimed in claim 1, it is characterized in that, this powder quantitatively regulating mechanism includes one and is arranged at first grip part of this first main part outer circumferential side for user's gripping, and this powder output mechanism includes one and is arranged at second grip part of the 3rd main part outer circumferential side for user's gripping.

5. as the tank wherein as described in of Claims 1-4, it is characterized in that, this powder quantitatively regulating mechanism includes one and is switched to one first angle to make the first state of this first opening and this first corresponding discharging opening overlap in this first main part relative to this second main part, and one is switched to one second angle to make the second state of this second opening and this second corresponding discharging opening overlap in this first main part relative to the 3rd main part.

6. tank as claimed in claim 5, it is characterized in that, this powder quantitatively regulating mechanism includes one or two and is arranged at position-limited trough on this first main part, this accommodating mechanism and/or this powder output mechanism include one be arranged at this second main part and/or the 3rd main part correspond to movement in this position-limited trough knock bar.

7. tank as claimed in claim 6, it is characterized in that, this position-limited trough includes one, and corresponding to this first angle limits, this knocks the first positive stop end of the throw of lever, one corresponds to this second angle limits, and this knocks the second positive stop end of the throw of lever, and one knocks for this rotation path that bar vacillates between this first positive stop end and this second positive stop end.

8. tank as claimed in claim 6, it is characterized in that, this accommodating mechanism includes a correspondence and is arranged at this and knocks in bar and towards the positioning groove of the 3rd main part direction opening, and this powder output mechanism includes one and to be arranged on the 3rd main part and to should the radius stay that arranges of positioning groove.

9. tank as claimed in claim 6, it is characterized in that, this powder output mechanism includes a correspondence and is arranged at this and knocks in bar and towards the positioning groove of this first main part direction opening, and this accommodating mechanism includes one and to be arranged on this first main part and to should the radius stay that arranges of positioning groove.

10. tank as claimed in claim 5, it is characterized in that, this accommodating mechanism and/or this powder output mechanism include one and are arranged at position-limited trough on this second main part and/or the 3rd main part, this powder quantitatively regulating mechanism include one or two be arranged at this first main part side or two sides and correspond to movement in this position-limited trough knock bar.

11. tanks as claimed in claim 10, it is characterized in that, this position-limited trough includes one, and corresponding to this first angle limits, this knocks the first positive stop end of the throw of lever, one corresponds to this second angle limits, and this knocks the second positive stop end of the throw of lever, and one knocks for this rotation path that bar vacillates between this first positive stop end and this second positive stop end.

12. as the tank wherein as described in of Claims 1-4, it is characterized in that, this accommodating mechanism includes one and is incorporated into the first pivot corresponding to the side of this first main part on this second main part, and this powder quantitatively regulating mechanism includes one and is incorporated into this first main part side and is articulated in the second pivot on this first pivot.

13. as the tank wherein as described in of Claims 1-4, it is characterized in that, this powder output mechanism includes one and is incorporated into the 3rd pivot structure corresponding to the side of this first main part on the 3rd main part, and this powder quantitatively regulating mechanism includes one and is incorporated into this first main part side and is articulated in the 4th pivot on the 3rd pivot.

14. as the tank wherein as described in of Claims 1-4, it is characterized in that, this powder quantitatively regulating mechanism includes one and is arranged at axis hole on this first main part, and one to be hubbed on this axis hole and Yu Erduan is individually fixed in the pivot of this second main part and the 3rd main part.

15. tanks as claimed in claim 14, it is characterized in that, 3rd main part includes one to be had the outer of this blanking space and draws a bow to the full, and one is hubbed at this outer side have the blanking rotating disk of this second corresponding discharging opening of drawing a bow to the full, the side that this blanking rotating disk is fixed on this pivot with this second main part rotating Vortex.