CN2885767Y - Quantitative extractor for solid powder - Google Patents

Abstract

The utility model relates to a novel apparatus which can quantitatively extract solid powders. The apparatus consists of components skid hoppers and a sliding bush that can discharge ground materials quantitatively. The skid hoppers are provided with a measuring tank and the sliding bush is provided with a filling aperture. The siding bush and one of skid hoppers is provided with a closing part. The skid hopper is connected with the sliding bush through rotating and sliding and is provided with a first relative position and a second relative position, and the filling aperture is on the sliding path of the measuring tank on the skid hopper. On the first relative position the measuring tank is connected with the filling aperture at the least scale and closed by the closing part. On the second relative position the measuring tank is detached from the filling aperture and exposed outside the sliding bush at the least scale. By means of the relative movement of the skid hopper against the sliding bush and the position changes of the skid hopper between the filling aperture and discharging aperture, the utility model can fill and discharge solid powders at a certain amount, which is convenient to operate.

Description

Pressed powder quantitative fetching device

[technical field]

The utility model is the taking device about a kind of pressed powder or particle.

[background technology]

In the prior art, people are when getting pressed powder or particulate matter (as salt, milk powder, coffee, albumen powder etc.), owing to do not have quantitative fetching function easily, so can only judge with the individual and get, be not easy to realize quantitative fetching, it is very inconvenient to operate, and moistureproof and health also is a problem.

[utility model content]

The purpose of this utility model is to provide a kind of device that can realize pressed powder or particle quantitative fetching.

The purpose of this utility model is achieved in that this pressed powder quantitative fetching device comprises by what sliding hopper and sliding sleeve were formed and quantitatively goes out component powder, this sliding hopper is provided with quantitative slot, this sliding sleeve is provided with powder inlet, one of this sliding sleeve and sliding hopper are provided with closure, this sliding hopper is connected with sliding sleeve by revolute pair or sliding pair and has first, second relative position, and this powder inlet is positioned on the path of motion of sliding hopper quantitative slot, at this first relative position, this quantitative slot is communicated with this powder inlet to small part and is sealed by this closure, at this second relative position, this quantitative slot and this powder inlet break away from and outside small part is exposed to sliding sleeve.

Described closure is located on the sliding sleeve or is the diapire of being located on the sliding hopper and sealing its quantitative slot bottom.

Described quantitative slot comprises first, second quantitative slot, and this first quantitative slot is communicated with powder inlet and the portion's of being closed sealing, and this second quantitative slot is outside small part is exposed to sliding sleeve.

Described sliding sleeve comprises pedestal and block body, powder inlet runs through this pedestal, this block body has closure and runs through first, second meal outlet of setting, at first relative position, this first quantitative slot is communicated with powder inlet and the portion's of being closed sealing, and this second quantitative slot is communicated with second meal outlet, at second relative position, this second quantitative slot is communicated with powder inlet and the portion's of being closed sealing, and this first quantitative slot is communicated with first meal outlet.

Described sliding sleeve is provided with rotating shaft, and this sliding hopper kink is installed in this rotating shaft and can rotates around it.

Described sliding sleeve has receiving space, and this powder inlet is communicated with this receiving space, and this sliding hopper places in this receiving space.

Described sliding sleeve comprises pedestal and block body, receiving space is formed between this pedestal and the block body, this powder inlet runs through this pedestal, this block body has closure and runs through the meal outlet of setting, this sliding hopper has at least two quantitative slots, when first, second relative position, there is a quantitative slot to be communicated with and the portion's of being closed sealing with powder inlet, there is another quantitative slot to be communicated with meal outlet.

Described quantitative slot is surrounded by the first wall and second wall and forms, this second wall and the affixed one of first wall or can slide by relative this first wall.

Described sliding sleeve is connected with a storage container, and this storage container has the powder of falling mouth, and this powder mouth that falls is communicated with the powder inlet of sliding sleeve.

Described sliding sleeve cooperates with a connector, and this adaptor union has first butt end and second butt end, and this first butt end is connected with sliding sleeve, and this second butt end is connected with storage container.

Compared with prior art, the utlity model has following advantage: by making the motion of the relative sliding sleeve of sliding hopper, make sliding hopper advance between powder and powder delivery position to change, that realizes pressed powder quantitatively advances powder and quantitatively powder delivery, is convenient to the user and operates.

[description of drawings]

Fig. 1 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device first specific embodiment.

Cutaway view and block diagram when Fig. 2 and Fig. 3 are quantitatively going out component powder and advancing powder of the utility model pressed powder quantitative fetching device first specific embodiment respectively.

Fig. 4 and Fig. 5 be respectively the utility model pressed powder quantitative fetching device first specific embodiment quantitatively go out the component powder powder delivery time cutaway view and block diagram.

Fig. 6 and Fig. 7 are respectively the front view of the utility model pressed powder quantitative fetching device first specific embodiment when advancing powder and powder delivery.

Fig. 8 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device second specific embodiment.

Cutaway view when Fig. 9 is quantitatively going out component powder and advancing powder of the utility model pressed powder quantitative fetching device second specific embodiment.

Figure 10 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device the 3rd specific embodiment.

Figure 11 and Figure 12 be respectively the utility model pressed powder quantitative fetching device the 3rd specific embodiment quantitatively go out the component powder powder delivery time block diagram and cutaway view.

Block diagram and cutaway view when Figure 13 and Figure 14 are quantitatively going out component powder and advancing powder of the utility model pressed powder quantitative fetching device the 3rd specific embodiment respectively.

Figure 15 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device the 4th specific embodiment.

Figure 16 be the utility model pressed powder quantitative fetching device the 4th specific embodiment quantitatively go out the component powder powder delivery time block diagram.

Figure 17 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device the 5th specific embodiment.

Figure 18 is the three-dimensional exploded view that quantitatively goes out component powder of the utility model pressed powder quantitative fetching device the 5th specific embodiment.

Figure 19 and Figure 20 be respectively the utility model pressed powder quantitative fetching device the 5th specific embodiment quantitatively go out cutaway view and the block diagram of component powder when first relative position.

Figure 21 and Figure 22 be respectively the utility model pressed powder quantitative fetching device the 5th specific embodiment quantitatively go out cutaway view and the block diagram of component powder when second relative position.

Figure 23 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device the 6th specific embodiment.

Figure 24 be the utility model pressed powder quantitative fetching device the 6th specific embodiment quantitatively go out block diagram after the assembling of component powder and volume adjusting means.

Figure 25 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device the 7th specific embodiment.

Figure 26 and Figure 27 be respectively the utility model pressed powder quantitative fetching device the 7th specific embodiment quantitatively go out the block diagram of component powder when second relative position and first relative position.

Figure 28 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device the 8th specific embodiment.

Figure 29 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device the 9th specific embodiment.

Figure 30 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device the tenth specific embodiment.

Figure 31 is the three-dimensional exploded view that the utility model pressed powder is quantitatively got all device the 11 specific embodiment.

Figure 32 is the block diagram (inversion state) of the utility model pressed powder quantitative fetching device the 11 specific embodiment when first relative position.

Figure 33 is the block diagram (inversion state) of the utility model pressed powder quantitative fetching device the 11 specific embodiment when second relative position.

Figure 34 be the utility model pressed powder quantitative fetching device the 11 specific embodiment quantitatively go out the cutaway view of component powder when first relative position.

Figure 35 be the utility model pressed powder quantitative fetching device the 11 specific embodiment quantitatively go out cutaway view in the component powder rotation process.

Figure 36 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device the 12 specific embodiment.

Figure 37 is the block diagram of the adaptor union of the utility model pressed powder quantitative fetching device the 12 specific embodiment.

Figure 38 is the three-dimensional exploded view of the utility model pressed powder quantitative fetching device the 13 specific embodiment.

Figure 39 is the adaptor union and the preceding three-dimensional exploded view of quantitative powder delivery assembly assembling of the utility model pressed powder quantitative fetching device the 13 specific embodiment.

Figure 40 and Figure 41 are respectively front view and the lateral plans after the adaptor union of the utility model pressed powder quantitative fetching device the 13 specific embodiment is assembled with quantitative powder delivery assembly.

Figure 42 is the cutaway view of Figure 41 along the A-A direction.

[specific embodiment]

The utility model pressed powder quantitative fetching device comprises sliding hopper and sliding sleeve, this sliding hopper is provided with quantitative slot, this sliding sleeve is provided with powder inlet, one of this sliding sleeve and sliding hopper are provided with closure, and this sliding hopper is connected with sliding sleeve by revolute pair or sliding pair and has first, second relative position, and at this first relative position, this quantitative slot is communicated with this powder inlet and is sealed by this closure, at this second relative position, this quantitative slot and this powder inlet break away from and outside small part is exposed to sliding sleeve.This sliding hopper is used to realize the quantitative fetching of pressed powder or particulate matter, and this sliding sleeve is used to support this sliding hopper and can connects the powder storage container.

See also Fig. 1 to Fig. 7, this pressed powder quantitative fetching device comprises sliding sleeve 10, sliding hopper 11 and storage container 12, this sliding hopper 11 be installed on this sliding sleeve 10 and relatively this sliding sleeve 10 between first, second relative position, slide, this storage container 12 is connected and is used to store powder (as milk powder) with sliding sleeve 10.This sliding sleeve 10 only comprises a pedestal, this pedestal has two butt ends, the recessed negative thread 101 that is formed with in one of them butt end, another butt end protrudes out and is provided with two guide plates 102, these two guide plates 102 are parallel to each other and extend along the direction of slip of sliding hopper 11, the internal face that these two guide plates 102 are provided with in opposite directions all is concaved with the oblique guide groove that has a down dip 103, and this sliding sleeve 10 also is provided with the powder inlet 104 that runs through first, second butt end.This sliding hopper 11 comprises quantitative slot 111, baffle plate 112 and handle 113, this quantitative slot 111 is enclosed by a curved wall 114 and forms, and the bottom of this quantitative slot 111 is sealed by diapire 115 and is formed with end formula quantitative slot, this baffle plate 112 is connected with the apical margin one of this sidewall 114, and this handle 113 is arranged on this baffle plate 112 side of sliding sleeve 10 dorsad.The bottom of this storage container 12 is provided with the powder mouth, and the outside wall surface that encloses the ring-type wall body of this powder mouth that falls is provided with outside thread 122.In addition, this baffle plate 112 also protrudes out towards a side of sliding sleeve 10 and is provided with projection 116, sliding sleeve 10 is provided with first, second limiting stopper 105,106 of tool confined planes towards a side of this sliding hopper 11, the distance that this first, second limiting stopper 105,106 is certain at interval also is positioned on the sliding trace of this sliding hopper 11, and it carries out spacing in order to reference position and final position to sliding hopper 11 path of motions.

When this pressed powder quantitative fetching device is installed, the negative thread 101 of sliding sleeve 10 and the outside thread 122 of storage container 12 bottoms are carried out screw thread fit, make sliding sleeve 10 be fixedly mounted on the bottom of this storage container 12, then sliding hopper baffle plate 112 axial both side edges are inserted in two guide grooves 103 of sliding sleeve 10, this sliding hopper 11 can be installed on this sliding sleeve 10.

The principle of work of this pressed powder quantitative fetching device is as follows: when first relative position when powder position (this quantitative slot 111 be in into), the powder mouth that falls of this storage container 12 aligns with the powder inlet 104 of this sliding sleeve 10 and is communicated with, the powder inlet 104 of sliding sleeve 10 aligns with quantitative slot 111 and is communicated with, thereby the powder that is placed in this storage container 12 falls into this quantitative slot 111, realize the quantitative fetching of powder, when this relative position, first limiting stopper 105 of sliding sleeve 10 contacts with the projection 116 of sliding hopper 11 and carries out spacing to the reference position of sliding hopper 11; Driving handle 113 then, then this sliding hopper 11 is oblique mobile down along two guide grooves 103, when sliding hopper 11 arrives second relative position (when quantitative slot 111 arrives the powder delivery position), this quantitative slot 111 stretches out sliding sleeve 10 and is communicated with outside air outward, when this relative position, second limiting stopper 106 of sliding sleeve 10 contacts with the projection 116 of sliding hopper 11 and to carrying out spacing in the final position of sliding hopper 11; At last, whole pressed powder quantitative fetching device is tilted or inversion, powder can be had in the end formula quantitative slot 111 from this and pour out.

In the sliding process of sliding hopper 11 and sliding hopper 11 when being in first relative position, the diapire 115 of this quantitative slot 111 drops out in the quantitative slot 111 of sliding hopper in order to prevent powder, and this diapire is described closure.Sliding hopper 11 from first relative position in the process that second relative position slides, the baffle plate 112 of sliding hopper 11 is by beginning to cover part powder inlet 104 this powder inlet 104 of complete closed to the end.

In the present embodiment, this pressed powder quantitative fetching device also comprises a closing cap 13, this sliding sleeve 10 and sliding hopper 11 constitutes a certain amount of component powder that goes out, this closing cap 13 detachably is installed in this and quantitatively goes out on the component powder, and when entering the powder position, this closing cap 13 covers this fully and quantitatively goes out component powder, and quantitatively goes out to form an enclosure space between the component powder in this closing cap 13 and this, to reach the purpose of moistureproof and health.When carry out next time when powder is operated, only need this handle of pulling to make sliding hopper 11 slide into first relative position again and get final product resume operations by second relative position.

See also Fig. 8 and Fig. 9, it is second specific embodiment of the utility model pressed powder quantitative fetching device, and this embodiment is with the key distinction of first embodiment: the pedestal of this sliding sleeve 20 is formed by separating first, second pedestal 201,202 that is provided with.This first pedestal 201 has first butt end and second butt end, this first butt end is evenly distributed with a plurality of first button columns 203, the position of corresponding each first button column 203 in these storage container 22 bottoms is equipped with first catching groove, this second butt end is evenly distributed with a plurality of second catching grooves 204, and the position of corresponding each second catching groove 204 is equipped with second button column 206 on this second pedestal 202.This second pedestal 202 is provided with the guide plate 205 of tool guide groove towards a side of sliding hopper 21.When this pressed powder quantitative fetching device is installed, at first with each first button column 203 and the cooresponding first catching groove bayonet fitting, and first pedestal 201 is installed in the bottom of storage container 22, then with each second catching groove 204 and cooresponding second button column, 206 bayonet fittings, and second pedestal 202 is installed on this first pedestal 201, at last sliding hopper 21 is inserted the guide groove of guide plate 205, and sliding hopper 21 is installed on second pedestal 202.The principle of advancing powder and powder delivery of this pressed powder quantitative fetching device does not repeat them here as described in first embodiment.

See also Figure 10 to Figure 14, it is the 3rd specific embodiment of the utility model pressed powder quantitative fetching device.This pressed powder quantitative fetching device comprises sliding hopper 31, sliding sleeve 30 and storage container 32.This sliding hopper 31 comprises quantitative slot 311, baffle plate 312 and handle 313, and this quantitative slot 311 up/down perforations and form formula structure of the no end.This sliding sleeve 30 comprises pedestal 301 and block body 302, and these pedestal 301 middle parts axially are penetrated with powder inlet 303, and this pedestal 301 vertically is extended with two parallel first side plates 304 of tool catching groove towards a side direction block body 302 directions of block body 302.This block body 302 comprises second side plate 305 of the parallel and tool button column 306 of substrate 308, meal outlet 307 and two, this meal outlet 307 is located at an end of substrate 308 and is run through these substrate 308, two second side plates 305 and is located at substrate 308 other ends and vertically extends to pedestal 301 directions from the both side edges of substrate 308.

When this pressed powder quantitative fetching device is installed, at first with the bottom bayonet fitting of this pedestal 301 with storage container 32, the receiving space that then sliding hopper 31 is placed this pedestal 301 and block body 302 to form, at last with the button column 306 of block body 302 and the catching groove bayonet fitting of pedestal 301, and sliding hopper 31 is clipped between this pedestal 301 and the block body 302.When this pressed powder quantitative fetching device uses, at first relative position, the quantitative slot 311 of this sliding hopper 31 is communicated with the powder inlet 303 of pedestal 301, and the bottom of this quantitative slot 311 is sealed by substrate 308 and is prevented that powder from spilling, then with sliding hopper 31 when this block body 302 slides into second relative position, the quantitative slot 311 of this sliding hopper 31 is communicated with the meal outlet 307 of block body 302 and realizes powder.In the present embodiment, in the sliding process of sliding hopper 31 and sliding hopper 31 when being in first relative position, the bottom of these substrate 308 sealing sliding hopper quantitative slots 311 drops out in this quantitative slot 311 to prevent powder, and this substrate 308 is described closure.Sliding hopper 31 from first relative position in the process that second relative position slides, the baffle plate 312 of sliding hopper 31 is by beginning to cover part powder inlet 303 this powder inlet 303 of complete closed to the end.

See also Figure 15 and Figure 16, it is the 4th specific embodiment of the utility model pressed powder quantitative fetching device, the key distinction of this embodiment and first embodiment is: the side of quantitative slot 411 has opening 412, and have a guide plate 402 roughly to be " L " type in two guide plates 401,402 of sliding sleeve 40, sliding hopper 41 is clipped between this two guide plate 401,402 and is supported on the minor face of " L " type guide plate 402, and the effect of sealing quantitative slot 411 side openings 412 is also played on the long limit of this " L " type guide plate 402 simultaneously.When first relative position, this quantitative slot 411 is communicated with the powder inlet 403 of sliding sleeve 40 and this opening 412 is sealed by this guide plate 402; When sliding hopper 41 when sliding sleeve 40 slides into second relative position, this quantitative slot 411 stretches out this guide plate 402, and this opening 412 to small part is exposed to outside this guide plate 402, thus powder can be poured out from this side opening 412.In the present embodiment, in the sliding process of sliding hopper 41 and sliding hopper 41 when being positioned at first relative position, the side opening 412 of these guide plate 402 these quantitative slots 411 of sealing and prevent that powder from spilling, this guide plate 402 is described closure; Sliding hopper 41 from first relative position in the process that second relative position slides, the baffle plate 413 of sliding hopper 41 is by beginning to cover part powder inlet 403 this powder inlet 403 of complete closed to the end.

See also Figure 17 to Figure 22, it is the 5th specific embodiment of the utility model pressed powder quantitative fetching device.This pressed powder quantitative fetching device comprises sliding sleeve 50, sliding hopper 51 and storage container 52.This sliding sleeve 50 comprises pedestal 501 and block body 502, this block body 502 lids establish on this pedestal 501 and with its formation one receiving space, this sliding hopper 51 place this receiving space and relatively this sliding sleeve 50 between first, second relative position, slide.These pedestal 501 middle parts axially are penetrated with powder inlet 503.This block body 502 comprises substrate 506 and runs through first, second meal outlet 504,505 of this substrate 506.This sliding hopper 51 comprises first, second quantitative slot 511,512, baffle plate 513 and first, second handle 514,515, this first, second quantitative slot 511,512 is formula structure of the no end, baffle plate 513 connects the inboard of the cell wall that encloses this first, second quantitative slot 511,512, and first, second handle 514,515 is installed in the outside of the cell wall that encloses this first, second quantitative slot 511,512 respectively.

During installation, at first with pedestal 501 by being buckled to fix in storage container 52 bottoms, then sliding hopper 51 is placed between pedestal 501 and the block body 502 and, thereby this sliding hopper 51 is clipped between this pedestal 501 and the block body 502 block body 502 and pedestal 501 bayonet fittings.

During use, when promoting first handle 514 to the right and making sliding hopper 51 along block body 502 upper surface slide to first relative position, first quantitative slot 511 is between first, second meal outlet 504,505, this first quantitative slot 511 is communicated with powder inlet 503 and the bottom of this first quantitative slot 611 is sealed by substrate 506, second quantitative slot 512 then is communicated with second meal outlet 505, in this position, first quantitative slot 511 advances powder; When promoting second handle 515 then left and making sliding hopper 51 along block body 502 upper surface slide to second relative position, first quantitative slot 511 is communicated with first meal outlet 504, and second quantitative slot 512 is communicated with powder inlet 503 and its bottom is sealed by substrate 506, in this position, first quantitative slot, 511 powder delivery and second quantitative slot 512 advances powder.By the setting of this first, second quantitative slot 511,512, but another quantitative slot powder delivery when making one of them quantitative slot advance powder, thus when using this dispenser, reduced by a control step, make operation easier and laborsaving.

See also Figure 23 and Figure 24, it is the 6th specific embodiment of the utility model pressed powder quantitative fetching device, and the key distinction of this embodiment and first embodiment is: the container of this quantitative slot 611 is variable.This quantitative slot 611 is put together by the first wall 612 and second wall 613, and this first wall 612 is located on the sliding hopper 61, and this second wall 613 is located on the volume adjusting means 64.This volume adjusting means 64 comprises body 640 and regulating part 642, and this body 640 is installed on the sliding hopper 61, and which is provided with jagged chute 641, the second walls 613 is a sidewall of this body 640, and the outer wall of this regulating part 642 is provided with sawtooth 643.During installation, this regulating part 642 is inserted in this chute 641 and with this chute 641 and cooperates for rack-and-gear.When this regulating part 642 of rotation, then cooperate to make to rotatablely move and become straight-line motion by this rack-and-gear, make body 640 make linear slide along sliding hopper 61, then the position of second wall, 613 opposite first walls 612 changes, and then the volume of quantitative slot 611 is changed.

See also Figure 25 to Figure 27, it is the 7th specific embodiment of the utility model pressed powder quantitative fetching device.This pressed powder quantitative fetching device comprises sliding sleeve 70, sliding hopper 71 and storage container, and this sliding hopper 71 is installed on this sliding sleeve 70 and can 704 be rotated around the shaft, and this storage container is used to store powder.This sliding sleeve 70 comprises pedestal 701 and block body 702, this block body 702 be covered on this pedestal 701 and with its formation one in order to place the receiving space of sliding hopper 71.This pedestal 701 is provided with the powder inlet 703 that axially runs through, and its middle part is extended with rotating shaft 704 vertically straight down, and this powder inlet 703 keeps at a certain distance away with this rotating shaft 704.Be penetrated with meal outlet 705 and shaft hole 706 on this block body 702 vertically, the distance that this shaft hole 706 is certain at interval with this meal outlet 705, and the powder inlet 703 of this meal outlet 705 and pedestal 701 angle that staggers, this shaft hole 706 is used for the rotating shaft 704 of abutment body 701 and passes.These sliding hopper 71 middle positions axially are penetrated with shaft hole 712, be equipped with formula quantitative slot of the no end 711 around this shaft hole 712, these four quantitative slots 711 are equal angles and distribute on circumference, it encloses formation by quadrangle cell wall 713, connect by baffle plate 714 between the cell wall 713 of adjacent quantitative slot, and the axis of each quantitative slot 711 all with the parallel axes of rotating shaft 704.

When this pressed powder quantitative fetching device is installed, at first pedestal 701 is installed in the bottom of storage container, then sliding hopper 71 and block body 702 are enclosed within the rotating shaft 704 successively, make rotating shaft 704 pass the shaft hole 712,706 of sliding hopper 71 and block body 702 successively, at last, the part of stretching out block body 702 in rotating shaft 704 covers end cap 707 and pins rotating shaft 704 by fastener, thereby sliding hopper 71 is clipped between pedestal 701 and the block body 702.

The principle of work of this pressed powder quantitative fetching device is as follows: when first relative position, one of them quantitative slot 711 is communicated with the powder inlet 703 of pedestal 701 and its bottom is sealed by block body 702, powder in the storage container can fall into this quantitative slot 711 through the powder inlet 703 of pedestal, realize quantitatively advancing powder, when this position, the top of other three quantitative slots and bottom are had a quantitative slot to be communicated with meal outlet 705 by among 702 sealings of pedestal 701 and block body or three respectively; Then, make sliding hopper 71 704 cws or left-hand revolution around the shaft, when sliding hopper 71 moves to second relative position, above-mentioned quantitative slot 711 is communicated with the meal outlet 705 of block body 702, then the powder in this quantitative slot 711 can drop out by meal outlet 705, when this position, the top of other three quantitative slots and bottom are all by 702 sealings of pedestal 701 and block body or there is a quantitative slot to advance powder.In the present embodiment, preferably when first and second relative positions, all there is one to be communicated with powder inlet 703 and another is communicated with meal outlet 705 in four quantitative slots; For the turned position of sliding hopper 71 is accurately located, also can locating part be set at the correspondence position of sliding sleeve and sliding hopper, carry out spacing with movement travel to sliding hopper; The cross sectional shape of quantitative slot 711 is with consistent into and out of the shape of powder mouth 703,705; When cw or left-hand revolution, before a continuation rotation and a back quantitative slot advance powder after previous quantitative slot advances powder, these baffle plate 714 sealing powder inlets 703.

See also Figure 28, it is the 8th specific embodiment of the present utility model, and the difference of this embodiment and the 7th embodiment is: only be provided with the formula quantitative slot of the no end 811 on this sliding hopper 81.During installation, pedestal 801 is installed in the bottom of storage container, sliding hopper 81 is enclosed within the rotating shaft 805 of pedestal 801, and block body 802 is installed on the pedestal 801, thereby make sliding hopper 81 be installed in pedestal 801 interior and 805 rotations around the shaft with the receiving space of block body 802 formation.When first relative position, the powder inlet 803 of pedestal 801 is communicated with the quantitative slot 811 of sliding hopper 81 and realizes powder, and when second relative position, this quantitative slot 811 separates with powder inlet 803 and is communicated with the meal outlet 804 of block body 802 and realizes powder delivery.Turn in the process of second relative position from first relative position at sliding hopper 81, the baffle plate 812 of this sliding hopper 81 moves to last complete closed powder inlet 803 by the part powder inlet 803 that covers of beginning.In the sliding process of sliding hopper 81 and sliding hopper 81 when being in first relative position, the bottom of these block body 802 these quantitative slots 811 of sealing and prevent that powder from dropping out in this quantitative slot 811.

See also Figure 29, it is the 9th specific embodiment of the present utility model, the key distinction of this embodiment and the 7th embodiment is: this sliding sleeve 90 only comprises a pedestal 90, this sliding hopper 91 is provided with the quantitative slot 911 of end formula, and the cell wall apical margin that encloses this quantitative slot 911 is connected with a baffle plate 912.During installation, pedestal 90 is installed in the bottom of storage container 92, these sliding hopper 91 kinks and are pressed in this sliding hopper 91 on the pedestal 90 by end cap 905 in rotating shaft 904.When first relative position, this quantitative slot 911 is communicated with the powder inlet 903 of pedestal 90, make sliding hopper 91 paste pedestal 90 around the shaft 904 when rotating to second relative position then, the powder inlet 903 of this pedestal 90 is sealed by baffle plate 912, this quantitative slot 911 then produces pedestal 90 and is exposed in the outside air, thereby can realize down powder.Turn in the process of second relative position from first relative position at sliding hopper 91, the baffle plate 912 of this sliding hopper 91 moves to last complete closed powder inlet 903 by the part powder inlet 903 that covers of beginning.

See also Figure 30, it is the tenth specific embodiment of the present utility model, the key distinction of this embodiment and the 9th embodiment is: this quantitative slot 1011 bottoms sealing and the side has opening 1012, and on the sliding sleeve 100 position that should side opening 1012 is provided with curved baffle 1001.When first relative position, this quantitative slot 1011 is communicated with the powder inlet of pedestal 100 and opening 1012 is sealed by baffle plate 1001; Make sliding hopper 101 paste sliding sleeve 100 around the shaft 1004 when turning to second relative position, opening 1012 to the small part of this quantitative slot 1011 produces outside the baffle plate 1001, thereby realizes the side powder delivery.Because the setting of this baffle plate 1001 makes quantitative slot 1011 can not leak powder before arriving second relative position.Turn in the process of second relative position from first relative position at sliding hopper 101, the baffle plate 1013 of this sliding hopper 101 moves to last complete closed powder inlet by the part powder inlet that covers of beginning.In addition, also be provided with the start-stop position that is used for sliding hopper 101 rotates on this sliding sleeve 100 and carry out spacing limiting stopper 1003.

See also Figure 31 to Figure 35, it is the 11 specific embodiment of the present utility model.This pressed powder quantitative fetching device comprises storage container 112, sliding sleeve 110 and sliding hopper 111, this storage container 112 is used to store pressed powder or particle, this sliding sleeve 110 is connected with storage container 112, and this sliding hopper 111 is installed on this sliding sleeve 110 and can rotates relative to this sliding sleeve 110.This sliding sleeve 110 comprises first pedestal 1101 and second pedestal 1102.These first pedestal, 1101 middle parts axially are penetrated with first powder inlet 1104, and this first pedestal 1101 protrudes out towards a side of storage container 112 and is provided with button column, and this first pedestal 1101 is provided with " door " type support towards a side of second pedestal 1102.This second pedestal 1102 comprises circular bottom plate 1106, arc side plate 1107 and circular cover 1103, and these base plate 1106 middle position vertical extent have rotating shaft 1108, and the axis normal of the axis of this rotating shaft 1108 and first powder inlet 1104.These arc side plate 1107 bottoms are fixed on this diapire 1106, it is enclosed to form a receiving space, and these side plate 1107 upper edge diametric(al)s run through two arc openings 1109,1100 of formation, the radian of these two arc openings 1109,1100 is 90 degree, one of them opening 1109 is second powder inlet 1109, this second powder inlet 1109 aligns with first powder inlet 1104 and is communicated with, and another one opening 1100 is meal outlet 1100.This sliding hopper 111 comprises that a center mast 1110 reaches from this center mast 1110 to four blades 1112 that extend all around, these center mast 1110 middle parts axially are penetrated with shaft hole 1111, the angle of two adjacent blades 1112 is 90 degree, between adjacent blades 1112, form four quantitative slot 1113a, 1113b, 1113c, 1113d, because the existence of center mast 1110, this quantitative slot is equivalent to have end formula quantitative slot.

When this pressed powder quantitative fetching device is installed,, and first pedestal 1101 is fixed on the bottom of storage container 112 with the buckle of first pedestal 1101 and the draw-in groove bayonet fitting of storage container 112 bottoms; With 1101 support bayonet fitting of the buckle of second pedestal 1102 and first pedestal, and with first, second pedestal 1101,1102 captive joints; Be enclosed within the shaft hole 1111 of sliding hopper 111 in the rotating shaft 1108 and on arc side plate 1107 tops by bayonet fitting securing cover plate 1103 (make sliding hopper 111 between this cover plate 1103, base plate 1106 and side plate 1107 and be attached to base plate 1106 inside faces), in the part that center mast 1110 stretches out cover plate 1103 handle 1105 is installed then.When this pressed powder quantitative fetching device uses, when first relative position, quantitative slot 1113a is communicated with first, second powder inlet 1104,109 and realizes powder, and during this position, quantitative slot 1113b, 1113d are sealed by side plate 1107 and quantitative slot 1113c and meal outlet 1100 align fully; Sliding hopper 111 1108 dextrorotations are around the shaft turn 90 degrees, and then quantitative slot 1113b and powder inlet 1109 align fully and advance powder, and quantitative slot 1113d and meal outlet 1100 align fully; Continue dextrorotation again and turn 90 degrees, then quantitative slot 1113a and meal outlet 1100 align and powder delivery fully, and quantitative slot 1113c and powder inlet 1109 align fully and advance powder.

See also Figure 36 and Figure 37, it is the 12 specific embodiment of the present utility model, this pressed powder dispenser also can comprise adaptor union 123, and this adaptor union has first butt end and second butt end, and this first butt end is connected with sliding sleeve 120 with storage container 122 respectively with second butt end.First butt end of this adaptor union 123 and sliding sleeve 120 be for being wholely set, and second butt end of this adaptor union 123 comprises a plurality of button pawls 1233 that protrude out setting and the pressure frame 1234 of a plurality of vertical extensions, and this each pressure frame 1234 is enclosed to form certain bit space 1235.When this dispenser is installed, storage container 122 is placed this space, location 1235, and should detain the inner edge bayonet fitting of pawl 1233 and storage container 122 bottoms, the outer rim bayonet fitting on this pressure frame 1234 and storage container 122 tops.

See also Figure 38 to Figure 42, it is the 13 specific embodiment of utility model, and this embodiment is that with the key distinction of the 12 embodiment the structure of adaptor union is different.This adaptor union 133 has an import 1331 and an outlet 1332, and this import and export 1331,1332 is communicated with by a temporary storage cavity 1333 that roughly is " L " type, this temporary storage cavity 1333 is made up of first temporary storage cavity 1334 of level and the second vertical temporary storage cavity 1335, and the chamber wall 1336 of the intersection of this first, second temporary storage cavity 1334,1335 is for being obliquely installed.During installation, the import 1331 of this adaptor union 133 is installed in the top of storage container 132, the outlet 1332 of this adaptor union is installed in by quantitatively going out on the component powder 130 that sliding sleeve and sliding hopper are formed.During use, whole dispenser is inverted, then the powder in the storage container 132 falls into first temporary storage cavity 1334, and then with this dispenser forward placement, then the powder in first temporary storage cavity 1334 in landing to the second temporary storage cavity 1335, is then kept in a certain amount of powder thereby pass through this temporary storage cavity through this bevelled chamber wall 1336.When needing powder delivery, operation quantitatively goes out component powder, 1335 powder is dropped out get final product.This kind structure is mainly used in when the storage container volume and weight is not easy to often be inverted greatly and uses.

In the utility model, this pressed powder quantitative fetching device comprises sliding sleeve and sliding hopper, this sliding hopper is connected with sliding sleeve by sliding pair or revolute pair, thereby sliding sleeve is made linear slide or is rotatablely moved relatively, this straight-line motion is as described in first to the 6th specific embodiment, and this rotatablely moves as described in the 7th to the 11 specific embodiment.

In the utility model, the powder delivery mode of this sliding hopper has ejecting type, the end to go out formula and side goes out formula, this ejecting type is as first, second, as described in the 9th and the 11 specific embodiment, this end, go out formula as described in the the 3rd, the 5th to the 8th specific embodiment, and this side goes out formula as described in the 4th and the tenth specific embodiment.

In the utility model, the quantity of this quantitative slot can be one, two (as described in the 5th embodiments) or a plurality of (as described in the 7th and the 11 specific embodiment).

In the utility model, quantitatively go out the sliding sleeve of component powder can be directly by friction force or screw thread fit and be connected with storage container, this sliding sleeve also can be connected (as described in the 12 specific embodiment) by adaptor union with storage container, this sliding sleeve also can be connected (as described in the 13 specific embodiment) by the adaptor union with temporary storage cavity with storage container, this sliding sleeve also can be one-body molded with storage container.

In the utility model, quantitative slot is surrounded by the first wall and second wall and forms, this second wall can with the affixed one of first wall, also can be relatively its motion, thereby change the volume (as described in the 6th embodiment) of quantitative slot.

In the utility model, this pressed powder quantitative fetching device also can comprise a closing cap, and this closing cap is installed in quantitatively to go out on the component powder, and when first relative position, this closing cap be covered with fully this quantitatively go out component powder and with its formation one enclosure space, thereby reach moistureproof and use the purpose of health.

Claims (10)

1. pressed powder quantitative fetching device, it is characterized in that: comprise by what sliding hopper and sliding sleeve were formed quantitatively going out component powder, this sliding hopper is provided with quantitative slot, this sliding sleeve is provided with powder inlet, one of this sliding sleeve and sliding hopper are provided with closure, this sliding hopper is connected with sliding sleeve by revolute pair or sliding pair and has first, second relative position, and this powder inlet is positioned on the path of motion of sliding hopper quantitative slot, at this first relative position, this quantitative slot is communicated with this powder inlet to small part and is sealed by this closure, at this second relative position, this quantitative slot and this powder inlet break away from and outside small part is exposed to sliding sleeve.

2. pressed powder quantitative fetching device as claimed in claim 1 is characterized in that: described closure is located on the sliding sleeve or is the diapire of being located on the sliding hopper and sealing its quantitative slot bottom.

3. pressed powder quantitative fetching device as claimed in claim 1 or 2, it is characterized in that: described quantitative slot comprises first, second quantitative slot, and this first quantitative slot is communicated with powder inlet and the portion's of being closed sealing, and this second quantitative slot is outside small part is exposed to sliding sleeve.

4. pressed powder quantitative fetching device as claimed in claim 3, it is characterized in that: described sliding sleeve comprises pedestal and block body, powder inlet runs through this pedestal, this block body has closure and runs through first, second meal outlet of setting, at first relative position, this first quantitative slot is communicated with powder inlet and the portion's of being closed sealing, this second quantitative slot is communicated with second meal outlet, at second relative position, this second quantitative slot is communicated with powder inlet and the portion's of being closed sealing, and this first quantitative slot is communicated with first meal outlet.

5. pressed powder quantitative fetching device as claimed in claim 1 or 2, it is characterized in that: described sliding sleeve is provided with rotating shaft, and this sliding hopper kink is installed in this rotating shaft and can rotates around it.

6. pressed powder quantitative fetching device as claimed in claim 5, it is characterized in that: described sliding sleeve has receiving space, and this powder inlet is communicated with this receiving space, and this sliding hopper places in this receiving space.

7. pressed powder quantitative fetching device as claimed in claim 6, it is characterized in that: described sliding sleeve comprises pedestal and block body, receiving space is formed between this pedestal and the block body, this powder inlet runs through this pedestal, this block body has closure and runs through the meal outlet of setting, and this sliding hopper has at least two quantitative slots, when first, second relative position, there is a quantitative slot to be communicated with and the portion's of being closed sealing, has another quantitative slot to be communicated with meal outlet with powder inlet.

8. pressed powder quantitative fetching device as claimed in claim 1 or 2 is characterized in that: described quantitative slot is surrounded by the first wall and second wall and forms, this second wall and the affixed one of first wall or can slide by relative this first wall.

9. pressed powder quantitative fetching device as claimed in claim 1 or 2 is characterized in that: described sliding sleeve is connected with a storage container, and this storage container has the powder of falling mouth, and this powder mouth that falls is communicated with the powder inlet of sliding sleeve.

10. pressed powder quantitative fetching device as claimed in claim 9, it is characterized in that: described sliding sleeve cooperates with a connector, this adaptor union has first butt end and second butt end, and this first butt end is connected with sliding sleeve, and this second butt end is connected with storage container.

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