DE3715017A1 - DOSING DEVICE FOR HOUSEHOLD FLOWING POWDERED EDIBLE OR FOODSTUFFS - Google Patents

Abstract

A device for dispensing portions of foodstuffs, spices, stimulants or similar in the form of poorly flowing powders for domestic use is fitted with a metering slide. The metering device comprising a bulk container (1) and a metering slide (3) is fitted with a stirrer (18) consisting essentially of an impeller wheel (26) which moves synchronously with the metering slide (3). The bulk material which is prone to blocking is thereby stirred and disaggregated, and the metering chambers (12) are therefore always completely filled. The metering device is particularly suitable for flour from ground cereals or coffee, powdered sugar and similar.

Description

The present invention relates to a metering device for difficult-flowing powdery pleasure products used in the household or food, with a bottomed bulk material container, one arranged parallel and at a distance from the floor stationary base plate and with a between the floor and the Bottom plate rotatably mounted, with at least one below and equipped metering slide, with an inflow opening in the bottom of the container and in the Bottom plate is at an angular offset to the inflow opening Outlet opening is provided.

From FR-PS 14 55 104 a dosing device is already in Known type known, but not for poorly flowing Edible or food can be used as it turns out has made such a tendency to block good at all does not fall into the metering chambers of the metering slide, or  but that the dosing chambers only partially and from filling to Filling can be filled with a different degree of filling. Flour from ground, for example, is a difficult flowing material Coffee, made from ground cereals, from ground pepper, powder sugar or similar powdered goods.

Another disadvantage of the known metering device is that the metering slide contains only two metering chambers, whereby handling is extremely cumbersome because of filling the dosing chamber or for removing the goods from the filled dosing chamber a rotation of the metering slide by 180 ° is necessary. Such Large angle of rotation cannot normally be achieved by a single one Hand movement. It is also disadvantageous that the metering only slide through one in the walls of the bulk container provided window is rotatable, or that at a fixed two masks must be turned.

This known metering device is not for everyone in the house used goods can be used.  

The present invention is therefore based on the object a metering device of the type mentioned in constructive easy to develop so that regardless of the type and Fluency of the luxury or food always the same remaining volume can be removed from the metering device can and that the handling of the device is simplified.

The task is achieved by the in the characterizing part of claim 1 listed features solved.

By the provided in the lower area of the bulk container Agitator is now achieved in the simplest way that when ver turning the metering slide also the agitator is actuated because the metering slide with the agitator in the sense of a forced coupling connected is. With the agitator this becomes above the floor lying goods are moved and countered when the metering slide is actuated possibly also loosened up, so that compression or Block formation is impossible. As soon as the respective dosing chamber of the metering slide is only partially below that in the floor provided inflow opening, the material trickles into the Dosing chamber and fill it up to the top.

A structurally simple design is achieved when the stirrer movement as a synchronous operation around the axis of rotation of the metering slide rotating impeller is formed with the metering slide. The wings extending over a partial height of the bulk goods container wheel is simple, for example made of a plastic producible. It is also one for the household safe and also wear-resistant Material. The blades of the impeller push this in the bulk material

Containers brought into the dosing chamber, so that this is always filled to the brim.

The effect of the individual vanes of the impeller is shown in beach Significantly increased when the bottom of the bulk container in the area of the inflow opening several at an angular distance from each other other and at right angles to the floor arranged claws for the outer edges of the wings have the same spacing to the axis of rotation of the impeller, the radial lengths the wing of the impeller the distances of the centers of the Thrust pins corresponding to the axis of rotation of the impeller or correspond approximately. This design achieves that the wings with their outer vertical front edges against the Thrust pins when the metering slide is actuated or that Impeller is set in rotation. The from an elastic ver malleable material made wings are then deformed so that they the respective at a certain degree of deformation Pass the thrust pin, causing it to vibrate. Thereby the effect of stirring or loosening the material becomes essential intensified.

In a further embodiment of the impeller it is provided that this ent one of the number of metering chambers of the metering slide speaking number of pieces at the same angular distance from each other arranged stop wings, and that, in the direction of rotation seen the impeller, a stationary in front of the inflow opening Stop for the outer vertical front edge of the stop Wing is provided in such a way that when a Stop wing on the stop the assigned metering chamber is below the inflow opening. When the stop wing on strikes the stop, this position of the metering slide could  can also be seen as a rest position in which always safe is that the one below the inflow opening Dosing chamber is filled to the brim. Through this configuration intermediate positions of the metering slide are avoided. In the further rotation of the metering slide to fill the next fol dosing chamber is the respective abutting the stop Ging stop wing deformed elastically, so that by the after the release of vibrations of the stirring or up loosening effect is further intensified. Since the place fixed stop in front of the inflow opening is by the each stop wing, the material is pressed into the dosing chamber. It is in view of the amount of goods moved partial if the height of the hinged wing with the height or approximates the height of the metering slide. By the stop pins arranged at an angular distance will be the wings located above the inflow opening continuously vibrated, so that in the dosing chamber, which is closed on the underside by the lower edge is, incoming material is loosened or stirred. It is conveniently between two, in the direction of Seen impeller, successive stop wings at least one swing wing is provided, the erge bend angular distances are preferably the same. Since the Vibrations of the swing wing become particularly strong when the cross section is relatively small, are expediently the Heights of the swinging wings are significantly lower than the heights of the Hinged wing. The swing wings are expedient arranged in height so that the horizontal side edges the swing wing at an equal distance from the assigned horizontal side edges of the hinged wings. Thereby the swing wings are centered on the stop wings.  

In addition, the stop can be structurally particularly simple through a larger approach of a start pin are formed so that no additional component is required becomes. The stop wings then only hit the lower part of the vertical end edge areas against the stop, so that each because the wing stops not only bends, but also ver twists.

According to a preferred embodiment, the bulk material container and each dosing chamber designed so that the cross cut the bulk container in the direction of the metering slide enlarged and the cross section of the metering chamber towards the lower plate enlarged. This will make the cross section in the fall direction of the good larger, so that no Rei at the lateral boundaries Exercise occurs and the goods in the lower area of the bulk goods container automatically falls or at the corresponding Position of the metering slide falls out of the metering chamber.

So that the dosing device is always at hand in the kitchen, for example is ready, it is appropriate if the bulk container on the Side facing away from the ground has a screw cap that fixed furniture components can be determined. The dosing device can then, for example, on the lower plate of a wall cabinet be fixed and screwed out of the cap by turning to refill the respective good.

Further characteristics and features of an advantageous embodiment The present invention is the subject of further Unteran say and arise from the following description of a preferred embodiment.  

It shows

Fig. 1 shows a metering device according to the invention in elevation,

Fig. 2 shows a metering device according to FIG. 1 in vertical section,

However, wheel Fig. 3 a of Fig. 2 corresponding vertical section in another angular position of the wing,

Fig. 4 shows a section along the line IV-IV in FIG. 3,

Fig. 5 is a section along the line VV in Fig. 2,

Fig. 6 is a bottom view seen in the direction of arrow A in FIG. 1,

Fig. 7 is a single part for fixing of the vane wheel in plan view,

FIGS. 8 and 9 details of a registration device, and

Fig. 10 a metering chamber equipped with an insert in section.

The metering device shown in FIG. 1 has a conical bulk container 1 , which is closed in the exemplary embodiment vorlie by a screwed-on bottom 2, which will be explained in more detail. Below the bulk container, a metering slide 3 , which is also explained in more detail, is arranged, which can be rotated about the central longitudinal axis of the bulk container 1 . Below the dosing slide 3 is still equipped with an opening 4 outlet funnel arranged so that the reservoired in bulk container 1 Good flowing in the central longitudinal axis of the hopper. 1 In the present embodiment, the bulk container is seen on the side facing away from the bottom 2 with an external thread 6 so that it can be screwed into a screw cap 7 .

In the present exemplary embodiment, the bottom 2 of the container has an annular flange 8 which is provided with an internal thread 9 for screwing in the container 1 . In order to reduce the number of revolutions, the internal thread can have multiple threads. The bottom 2 has a segment-shaped inflow opening 10 , which can be seen in particular from FIG. 4. In addition, the bottom 2 has a central, tubular extension 11 which is opposite to the ring flange 8 and on which the metering slide 3, which will be explained in greater detail, is rotatably mounted. The metering slide 3 is provided in the present exemplary embodiment with four metering chambers 12 . As a result, for filling a metering chamber or for simultaneously emptying a metering chamber, the metering slide is rotated in an ergonomically advantageous manner by an angle of 90 °. The cross section of the metering slide corresponds essentially to the item according to Fig. 7. Accordingly, the metering slide 3 consists of an outer jacket 13 , a bearing sleeve 14 and four from the outer jacket to the bearing sleeve 14 , at right angles to each other separating webs, which limit each Do sierkammer 3 . The webs form a cross, so that the metering chambers 12 are designed in the manner of a four-segment segment, be drawn on the cross section. In contrast to the illustration according to FIG. 2, the outer jacket 13 could also be conical, the larger cross section of the inflow opening 10 facing away. This enables the product to flow smoothly. The outer surface of the jacket 13 of the metering slide 3 is freely accessible, so that turning is particularly easy. On the side facing away from the inflow opening 10 , the metering chambers are delimited by a stationary lower plate 15 . This lower plate 15 has a central, square drilled opening, which lies on a correspondingly square shaped pin of the approach 11 . So that the lower plate 15 does not fall from the pin of the projection 11 , a holding ring 17 shown in FIG. 7 in plan view is fixed to an agitator 18, which is explained in more detail, by means of a screw 16 . The adjacent surfaces are so close to each other that on the one hand no good can penetrate, but on the other hand a movement of the retaining ring 17 is still possible. As can also be seen from FIG. 2, an outlet opening 19 is provided in the lower plate 15 , which is adapted to the metering chambers 12 in cross section. The Auslaßöff opening 19 is offset in the present embodiment with respect to a flow opening 10 through an angle of 180 °.

In the illustrated embodiment, the agitator consists essentially of four each at a right angle to each other arranged stop wings 20 and four also at an angle of 90 ° to each other swinging wings 21 , the angle between a stop wing 20 and a swinging wing 21 is 45 °. In the illustration according to FIG. 2, the agitator 18 is positioned in such a way that the viewing direction is directed vertically towards two opposite stop blades 20 . This section is marked in Fig. 4 marked II. The stop wings 20 and swing wings 21 are arranged on a pin 22 , the length of which is substantially greater than the height of the stop wings 20 . The pin 22 is guided in the tubular sleeve 11 of the base 2 , as can be seen in FIG. 2. However, the pin 22 is kept smaller in diameter in the area of the metering slide 3 than in the area of the stop wing 20 . At the end facing away from the stop wings 20 it has a cross-sectionally held neck 23 which engages in a correspondingly shaped recess of the retaining ring 17 . This results in a positive connection between the retaining ring 17 and the agitator 18 . As shown in FIG. 7, the retaining ring 17 is equipped with four radially projecting cams 24 which engage in corresponding recesses in the outer casing 13 of the metering slide 3 . This also a positive fit between the metering slide 3 and the retaining ring 17 is achieved. When the metering slide 3 is rotated, the retaining ring 17 and the agitator 18 are simultaneously rotated through the same angle. The outlet funnel 5 is also plugged onto the retaining ring 17 . As can be seen from FIG. 2, the height of the swing wings 21 is approximately 1/3 of the height of the stop wings 20 . In addition, the distance between the facing horizontal side edges is the same. In addition, the stop wing 20 are set such that between the bottom 2 of the hopper 1 and the face lying horizontal side edges of the stop wing 20, a gap having a relatively large amount of z. B. 6 mm is formed, but which is significantly less than the height of the swing wing 21st It is thereby achieved that the stop wings 20 lie within the space of the bulk goods container 1 filled with good.

In the representation according to FIG. 3, in contrast to the representation according to FIG. 2, the swinging wings 21 are perpendicular to the viewing direction.

From Fig. 4 in conjunction with Fig. 2 and Fig. 3 it can be seen that the inflow opening 10 of the bottom 2 are assigned several at an equal angular distance to each other pins 25 which extend into the interior of the bulk container 1 .

As can be seen from FIGS . 2 and 3, the thrust pins 25 extend to the level of the swinging wings 21 . In the present embodiment, the agitator is rotated in the direction of arrow B. In this case, the thrust pin 25 lying in the direction of rotation in front of the flow opening 10 is equipped in the lower region with a projection 25 a which is larger in diameter, as FIGS. 2 and 3 show. The radial lengths of the stop wing 20 and the vibration vanes 21 are designed such that the lower region of the vertical front edge of the stop wing 20 against the projection 25a strikes. The approach 25 a forms a stationary stop. In this position, the flow opening 10 and one of the metering chambers 12 are congruent one above the other. In addition, the metering chamber is offset by 180 ° above the outlet opening 19 . This will empty the last-mentioned dosing chamber. However, emptying takes place even with a partial overlap, as is filling the dosing chamber, which is offset by 180 °. Because the metering slide 3 contains four metering chambers 12 , there is a filled metering chamber between the emptying and the filling metering chamber. By acting as a stop approach 25 a is also achieved that when the wing 20 is attached to the above the outlet opening 19 dosing chamber is empty. With the further rotary movement of the stop wing 20 and the swing wing wing wheel 26 , the abutting against the shoulder 25 stop wing 20 is deformed so much that the vertical end edge slides past the approach. Since the radial lengths of the swinging wings 21 are designed so that the vertical end edges touch the thrust pins 25 , they are deformed during a rotary movement so that movement is possible.

As a result of the oscillation, in particular of the swinging wings 21 , the material in the bulk goods container 1 is continuously loosened, so that no blocking can occur. As can be seen from Fig. 4, at a rotational movement of the impeller 26 the material by the above-anlie to the boss 25 constricting abutment wings 20 through the inflow port 10 toward pressed into the dosing chamber 10.

It can be seen from FIG. 5 that only one outlet opening 19 is provided in the lower plate 15 .

In FIG. 2, the distance between the hopper 1 denotes lying facing surface of the bottom 2 and the associated horizontal side edges of the stop wing 20 with a.

The screw cap 7 shown in FIG. 2 has a plurality of bores 28 for fastening means so that it can be fastened to the underside of a wall cabinet. In addition, this screw cap 7 has a handle 29 on which the entire metering device can be held when a fixation is not desired. The embodiment shown has the advantage that the same screw cap can be used for a free installation or a fixed attachment. To refill material, the bottom can be pulled off the edge of the opening by applying moderate force. If a fixed attachment in a hanging position has taken place, the bulk container 1 must of course be unscrewed from the screw cap.

The components forming the dosing device are preferably made of plastic in a suitable process, so that it can be assumed that a mechanical processing device can be omitted. The agitator 18 , ie the stop wing 20 , the swing wing 21 and the pin 22 could, for example, be a one-piece injection molded part. The same applies to the metering slide 3 . It should also be mentioned that the axis of rotation of the metering slide 3 and the axis of rotation of the agitator 18 lie in the central longitudinal axis of the bulk material container 1 .

The thread of the container 1 , the screw cap 7 and the bottom 2 are designed so that the screwed parts tighten by the rotary movement of the metering slide 3 . As can be seen in particular from FIG. 2, the bottom 2 , the Do sierschieber 3 , the lower plate 15 , the agitator 18 , the retaining ring 17 and the discharge funnel 5 form a unit that can be screwed onto the container 1 Be, so that Refilling bulk goods in the container 1 is particularly easy, and no parts need to be demon ted.

In the illustrated embodiment, the position of Do sierschiebers 3 is predetermined by the stop wing 20 . In contrast, it is also conceivable that the position is fixed by a snap connection. Such a locking connection could be formed, for example, from a spring-loaded ball which engages in locking recesses. So that the number of portions removed from the bulk container 1 can still be determined even when the removal of several portions has been carried out with interruptions, a mechanical registration device 30 indicated in FIG. 1 and shown in more detail in FIGS. 8 and 9 is provided, which is essentially formed from a counting disk 31 which can be driven by the metering slide 3 . The counter disc 31 can be rotated about an axis parallel to the central longitudinal axis of the bulk material container 1 by moderate force so that it can be set to an initial value if necessary. The counter disc 31 has an approach with a smooth surface, on the numbers are applied in a continuous order at a predetermined distance. In addition, the counting disc 31 has protruding teeth 32 . The number of teeth corresponds to the number of digits applied to the base. The distance between the digits is adapted to the distance between the teeth. The counting disk after each bed around a Zif fer continue to rotate, also projecting teeth 33 are formed on the metering slide 3, which are engageable with the teeth 31 in engagement, as can be seen from Fig. 8. The number of teeth 33 formed on the metering slide 3 corresponds to the number of metering chambers 12 . In the present exemplary embodiment, the counter disk 31 is thus moved further by one tooth with a quarter turn of the metering slide 3 . In order to determine the number of withdrawals, a window 34 is provided in the ring flange 8 of the bottom 2 , which is designed so that only one number always appears. In order to be able to set the counting disk 31 by hand to an initial value, the axis of rotation of the counting disk 31 is placed in such a way that touching by hand is still possible. In the present exemplary embodiment, the counting disk 31 has ten teeth or ten digits in ascending order. As a modification, however, other numbers of teeth or digits are possible.

It is now known that, for example, in the preparation of coffee, depending on the taste of the drinker, a quantity of five, six or seven grams of ground coffee is used for a cup. In order to meet these requirements, the metering chambers 12 of the metering slide 3 are designed for the largest amount. In order to reduce the amount, however, it is shown in FIG. 10 that at least one insert 35 which reduces the volume can be inserted into the metering chamber 12 . The inner contour of this insert 35 could enlarge in the direction of the outlet opening of the metering slide 3 . In order to prevent falling out, latching noses 36 engaging in latching recesses could be provided on the insert 35 , as indicated in FIG. 10.

In contrast to the preceding description, the run-up pins 25 and the approaches 25 a could also be formed from a one-piece segment which is firmly connected to the base 2 or is also part of the base.

As a comparison of FIGS. 4 and 5 shows, the inflow opening 10 in the bottom 2 is larger than the outlet opening 19 located in the lower plate 25 . These different cross-sections ensure that the respective metering chamber remains open longer so that it is ensured that it is also completely filled.

• Reference number 1 bulk container
  2 floor
  3 metering slides
  4 opening
  5 discharge funnels
  6 external threads
  7 screw cap
  8 ring flange
  9 internal thread
  10 inflow opening
  11 approach
  12 dosing chamber
  13 coat
  14 bearing sleeve
  15 lower plate
  16 screw
  17 retaining ring
  18 agitator
  19 outlet opening
  20 stop wings
  21 swing wings
  22 cones
  23 approach
  24 cams
  25 thrust pin
  26 impeller
  27 -
  28 hole
  29 handle
  30 registration device
  31 counter
  32 teeth
  33 teeth
  34 windows
  35 use
  36 latch

Claims (31)

1. Dosing device for household, difficult-flowing, powdered food or food with a bottom provided with a bulk container, a parallel and spaced from the floor fixed base plate and with a rotatably mounted between the floor and the bottom plate, with at least one below and Equipped metering slide equipped at the top, with an inlet opening in the bottom of the container and an outlet opening at an angle to the inlet opening in the bottom plate, characterized in that at least one in the bulk container ( 1 ) extends to the metering slide ( 3 ) , adjacent to the bottom ( 2 ) of the bulk container ( 1 ) provided stirrer ( 18 ). 2. Dosing device according to claim 1, characterized in that the agitator ( 18 ) as a about the axis of rotation of the metering slide ( 3 ) in synchronism with the metering slide ( 3 ) rotating impeller ( 26 ) is formed. 3. Dosing device according to claim 2, characterized in that the bottom ( 2 ) of the bulk container ( 1 ) in the region of the inflow opening ( 10 ) several angularly spaced from one another and at right angles to the bottom ( 2 ) arranged thrust pins ( 25 ) for the outer edges of the wings ( 20 , 21 ) which are at the same distance from the axis of rotation of the impeller ( 26 ), and that the radial lengths of the wings ( 20 , 21 ) of the impeller ( 26 ) the distances between the centers of the running pins ( 25 ) from the axis of rotation of Correspond to or approximately correspond to the impeller ( 26 ). 4. Dosing device according to claim 3, characterized in that the thrust pins ( 25 ) in the outer region of the bottom ( 2 ) of the bulk goods container ( 1 ) are arranged. 5. Metering device according to claim 2, characterized in that the impeller ( 26 ) one of the number of metering chambers ( 12 ) of the metering slide ( 3 ) corresponding number of pieces arranged at the same angular distance from each other on stop vanes ( 20 ), and that, in the direction of rotation of the a stationary stop (25 a) provided for the outer vertical end edges of the stop wing (20) in the manner of impeller (26) seen in front of the inlet opening (10) that upon contact of a stop wing (20) on the stop (25 a ) the associated metering chamber is below the inflow opening ( 10 ) of the bottom ( 2 ). 6. Metering device according to claim 5, characterized in that the heights of the stop wing ( 20 ) with the height or approximately with the height of the metering slide ( 3 ) match. 7. Dosing device according to claim 5, characterized in that between two, in the circumferential direction of the impeller ( 26 ), one behind the other stop wings ( 20 ) is provided at least one rocking wing ( 21 ), the resulting angular distances are preferably the same. 8. Dosing device according to claim 7, characterized in that the heights of the swinging wings ( 21 ) are substantially less than the heights of the stop wings ( 20 ) 9. Dosing device according to claim 8, characterized in that the height of the swinging wing ( 21 ) is approximately 1/3 of the height of the stop wing ( 20 ). 10. Dosing device according to claim 8, characterized in that the horizontal side edges of the swing wing ( 21 ) are at an equal distance from the horizontal side edges of the stop wing ( 2 ) facing. 11. Dosing device according to one or more of the preceding claims, characterized in that the vertical end edges of the stop wings ( 20 ) relative to the vertical end edges of the swinging wings ( 21 ) are offset by a small amount in the direction of the axis of rotation of the impeller ( 26 ). 12. Dosing device according to one or more of the preceding claims, characterized in that the bottom ( 2 ) of the bulk material container ( 1 ) has a central, over the area of the metering slide ( 3 ) extending tubular extension that the impeller ( 26 ) in the tubular extension ( 11 ) has a rotatably mounted extension ( 22 ), which both the free end of the tubular extension ( 11 ) and the free end of the pin ( 22 ) each have a four-sided extension ( 23 ) that on the square the tubular extension (11) of the lower plate (15) is mounted form-fit, and that the pin (22) is a retaining ring (17) fitted form-fit on the square neck (23), and that the retaining ring (17) on its outer circumference has protruding cams ( 24 ) which engage in correspondingly designed recesses provided in the outer casing of the metering slide ( 3 ). 13. Dosing device according to one or more of the preceding claims, characterized in that the in the bottom ( 2 ) of the bulk material container ( 1 ) provided a flow opening ( 10 ) is contoured to the outlet opening provided in the lower plate ( 15 ), and that the Outlet opening ( 19 ) is offset by an angle of 180 ° with respect to the inflow opening ( 10 ). 14. Dosing device according to one or more of the preceding claims, characterized in that the bottom ( 2 ) of the bulk material container ( 1 ) has an opposite to the approach ( 11 ) directed ring flange ( 8 ), which with a preferably more common internal thread ( 9th ) is provided, in which the opening opening of the bulk container ( 1 ) delimiting edge can be screwed. 15. Dosing device according to one or more of the preceding claims, characterized in that the outlet funnel ( 5 ) on the side associated with the metering slide ( 3 ) has a circumferential bead which in an outer jacket ( 13 ) of the metering slide ( 3 ) provided groove engages. 16. Dosing device according to one or more of the preceding claims, characterized in that the bulk container ( 1 ) and the metering chambers ( 12 ) of the metering slide ( 3 ) are conical in such a way that the cross section of the bulk container ( 1 ) towards the metering slide ( 3 ) increases, and that the cross section of the metering chambers ( 12 ) increases in the direction of the lower plate ( 15 ). 17. Dosing device according to one or more of the preceding claims, characterized in that the bulk material container ( 1 ) on the side facing away from the bottom ( 2 ) has an external thread ( 6 ) onto which a screw cap ( 7 ) can be screwed. 18. Dosing device according to one or more of the preceding claims, characterized in that the screw cap ( 7 ) is equipped with fastening bores ( 28 ) and at least one handle ( 29 ). 19. Metering device according to one or more of the preceding claims, characterized in that the stop is formed (25 a) for the stop vane (20) by a remote start pin (25), said collar with respect to the remaining start-up pins (25) is greater held extends from the bottom ( 2 ) of the bulk goods container ( 1 ) to the level of the side edges of the swinging wings ( 21 ) facing the bottom ( 2 ). 20. Dosing device according to one or more of the preceding claims, characterized in that the horizontal sides of the bottom ( 2 ) facing edges of the stop wing ( 20 ) are at a distance ( a ) to the bottom surface of the bottom ( 2 ). 21. Dosing device according to one or more of the preceding claims, characterized in that the agitator ( 18 ) is designed as a one-piece plastic part. 22. Dosing device according to one or more of the preceding claims, characterized in that the metering slide ( 3 ) is designed as an integral plastic part ( 3 ). 23. Dosing device according to one or more of the preceding claims, characterized in that in the region of the bottom ( 2 ) a mechanical registration device ( 30 ) is provided with which the number of emptied dosing chambers ( 12 ) can be determined. 24. Dosing device according to claim 23, characterized in that the registration device ( 30 ) is essentially formed from a teeth ( 32 ) having a counting disc ( 31 ) which is parallel to the axis of rotation of the metering slide ( 3 ) or parallel to the central longitudinal axis of the bulk material container ( 1 ) standing axis is rotatable. 25. Dosing device according to claim 24, characterized in that for driving the counting disc ( 31 ) on the metering slide a number of the metering chambers ( 12 ) corresponding number of standing teeth ( 33 ) are formed, which are arranged at an equal angular distance from one another, and can be brought into engagement with the teeth ( 32 ) of the counting disk ( 31 ). 26. Dosing device according to claim 23, characterized in that in the ring flange ( 8 ) of the bottom ( 2 ) a window ( 34 ) is provided, in each of which a number of the counting disc ( 31 ). 27. Metering device according to one or more of the preceding claims, characterized in that in each metering chamber ( 12 ) min at least a volume-reducing insert ( 35 ) can be introduced. 28. Dosing device according to claim 27, characterized in that the insert ( 35 ) can be positively inserted into the dosing chamber ( 12 ) and is secured by means of a latching connection. 29. Dosing device according to one or more of the preceding claims, characterized in that at least the metering slide ( 3 ), the outlet funnel ( 5 ) and the agitator ( 18 ) form a unit which can be screwed onto the bulk material container ( 1 ). 30. Dosing device according to one or more of the preceding claims, characterized in that the thrust pins ( 25 ) and the lugs ( 25 a ) are formed from a one-piece segment formed on the base ( 2 ). 31. Metering device according to one or more of the preceding claims, characterized in that the rest position of the metering slide ( 3 ) can be fixed by a latching connection, for example by a latching ball engaging in a latching recess.