DE3709773A1 - DEVICE FOR DOSING AND MIXING SMALL AMOUNTS - Google Patents

Abstract

Device for dosing and mixing substances in small quantities, particularly for the purpose of chemical experiments, consisting of a hollow element, preferably provided with a measuring scale and serving principally as a mixing area, and a closure for said hollow element, comprising a dosing area or at least assisting regulation of a dosing area disposed within the hollow element.

Description

The invention relates to a device for metering and mixing of small quantities, especially for chemical Investigations, such as for the determination of pollutants in water, beverages and food as well as for monitoring the properties, for example of water in rivers, lakes, Fish ponds and the like. These investigations are carried out in generally carried out on the spot where the item to be checked Medium is present, for example on the bank of a fish pond. In order to carry out such chemical tests, it is known so-called test boxes in which the chemicals for Determination of substance concentrations should be kept separately. They are generally distributed by the chemical industry as so-called chemical hobby boxes, aquarium test boxes and harmful fabric test boxes for fishing and environmental protection. These test boxes have a number of disadvantages. For your service are specialist knowledge, but at least it is a considerable induction time required. Their handling is cumbersome and Test process time consuming. The process itself lacks the required systematic accuracy and repetition accuracy. Improper handling with danger is not be ruled out. A relatively large test box trans ported and only the entire test program can be bought, which requires a high price.

The invention has for its object a device for Dosage and mixing of small amounts of substance, in particular to create for chemical investigations, which without previous knowledge is to be handled by everyone, no work place-like conditions the setup time and the test time are only short are, on the other hand, a systematic accuracy, a high Repeatability, safe handling, and in particular has a small construction volume, so that it is not only one low price is available, but also to carry out very specific individual tests can be used. If in this  Context is spoken of small amounts of substance, so are this means quantities of substance that are not dosed in a large-scale plant and should be mixed, but it should be a device act that can be transported and operated by hand.

The solution to the problem is a device for dosing and mixing small quantities of substances, in particular for chemical investigations carried out by one, in particular serving as a mixing room, preferably with a scale provided hollow body is characterized and by at least an associated closure member containing a dosing space and / or with the help of at least one dosing chamber of the hollow body is controllable. In a particularly simple embodiment can the hollow body from a round or closable on both sides angular tube exist, the closure at least at one end organ is assigned.

In the aforementioned chemical investigations, which lead to the determ of pollutants in water, beverages and food as well as to determine the substance concentrations in rivers, lakes, Fish ponds and the like are used, too investigating media associated with reagents, which often cause discoloration of the medium and / or the reagent to lead. It is advantageous to be able to observe these discolourations adheres if the hollow body at least in the area of the mixing room is made of clear material.

According to a particularly simple embodiment of the invention can the hollow body by means of an insert in the mixing room and be divided into at least one dosing room and the individual Spaces can be connected to each other by openings are controllable by the closure member, that is closed or can be opened. Furthermore, the hollow body with openings have provided partitions in addition to or instead of of use are provided.  

The individual rooms, i.e. both the dosing rooms and the Mixing room, can be connected by openings, which by means of a rotary movement or an axial movement of the Closure member are controllable, i.e. opened or closed can be. But it is also possible that the individual rooms to control connecting openings by moving the insert. The handling of the device according to the invention becomes special simplified if by means of the movements of the closure member and / or the use of the individual rooms with the Atmos spherical connecting openings are controllable.

To ensure that certain positions of the closure member or the use of predetermined connections of the individual Spaces are associated with each other and with the atmosphere it is advantageous if the movements of the closure member or of use can be limited by grids. Not to do this the grids can only be fixed in two positions possibly be releasable with the exception of a final catch. The grids themselves can consist of depressions in the a protrusion protrudes, similar to the known connection groove and feather. So that the grids can be released, the projection be resilient and, for example, from a resilient stored ball exist.

In a particularly advantageous embodiment of the invention can the closure member from a rotatable in the hollow body and / or exist axially movably mounted distributor rod.

The distributor bar can have circumferential grooves arranged in this way are for programmable opening, closing and connecting the individual the rooms with each other or with the atmosphere connecting openings serve. However, it is more advantageous if  the distributor rod is designed as a tube and openings in the Has side wall, which are arranged such that they for programmable opening, closing and connecting the individual connecting the rooms with each other or with the atmosphere Serve openings.

Furthermore, it can be advantageous if the closure member itself Has openings that correspond to the openings of the metering spaces are assigned to them when the closure member moves Serve connection of the dosing rooms with the atmosphere. To one incorrect operation or accidental spillage avoid, it is advantageous if the openings of the closure organs and / or distribution rods are arranged such that the Mixing room at every position of the closure member and / or the Distribution rod against the atmosphere is completed.

A particularly simple constructive solution results if the locking device from one to which the individual rooms of the hollow body separating insert rotatable Ver divider cover, which is provided with openings and against the insert is sealed so that the openings of the insert are closable from the atmosphere. This distributor cover can be firmly connected to the aforementioned distribution bar, possibly consist of one piece. The openings of the lid can be arranged such that only one dosing chamber at a time is connected to the atmosphere, so that the dosing is mixed up spaces when filling the medium is difficult. The size of the Dosing rooms can be dimensioned so that the amount of dosing Clear substances that can be filled in by opening the lid the rotational movement of the lid is adjustable. So always the right dosing room is connected to the atmosphere, the angle of rotation of the lid can be limited by rastering, for example from an existing one in the lid or in use Ring groove exist in which a projection of the insert or Cover, such as tongue and groove, protrudes. If the Grooves at predetermined locations, e.g. an offset or has a recess, and the projection resiliently mounted  is, grids can be created that are several striking Mark the positions of the cover. This lead can for example consist of a spring-loaded ball.

As already mentioned, chemical sub-occurrences occur in some color changes, the conclusions about the existence enable certain substances. To use the Invention to facilitate appropriate device for such investigations, can the hollow body in the mixing room with a color ver be provided on the same scale.

Based on the embodiments shown in the figures the invention explained in more detail. It shows

Fig. 1 and 2 each show a longitudinal section of two different embodiments with axially moving closure member and each having a mixing and a metering chamber,

Fig. 3 shows a longitudinal section through an execution example with a rotatable closure member and with a mixing and two Dosierräumen,

Fig. 4 shows a longitudinal section through a device similar to Fig. 3, however, in turn, with axially moving closure member,

FIG. 4a is a sectional view similar to FIG. 4, the line IV -IV that of a but along a of FIG. 5,

Fig. 5 is a section through the Fig. 4, along the line VV

Fig. 6 shows the external view of a particularly advantageous device having a rotatable cover,

Fig. 7 is a section through the use of the before ferred embodiment of Fig. 6 along the line VII-VII of Fig. 9,

Fig. 8 another section through the insert along the line VIII-VIII of Fig. 10,

Fig. 9 is a plan view of the insert shown in Fig. 8 but without distributor pipe,

Fig. 10 is a section through the insert with distributor pipe according to the line XX of Fig. 7,

Fig. 11 is a section through the manifold cover with manifold taken along the line XI-XI of Fig. 12,

Fig. 11a shows a section through the FIG. 11 along line XI -XI a a,

Fig. 11b shows a section through the FIG. 11 along the line XI b -XI b,

Fig. 11c shows a section through the FIG. 11 along line XI-XI c c,

Fig. 11d shows a section through the FIG. 11 along line XI -XI d d,

Fig. 12 is a plan view of the distributor cover.

In the embodiment according to Fig. 1 one recognizes the hollow body 1, which consists in this case of a sealable on both sides, round tube. The closure of the lower pipe end is fixed in this case, while the closure member 2 is assigned to the upper end. The hollow body is divided into the mixing chamber 4 and the metering chamber 5 by an insert 3 . Mixing and dosing room are connected by openings 6 . These openings 6 can be controlled by the closure member 2 , ie they can be opened and closed by the closure member 2 . In this exemplary embodiment, the openings 6 are controlled by an axial movement of the closure member 2 in the direction of the double arrow 7 . For this purpose, the closure member 2 is connected to an actuating button 9 via a rod 8 . The actuating button 9 is also attached to a tube 10 which is slidably mounted in a guide tube 11 of the insert 3 . A compression spring 12 normally holds the closure member 2 in the closed position. By pressing the actuating button 9 , the closure member 2 is moved downward and opens the openings 6 between the metering chamber 5 and the mixing chamber 4 . Openings 13 serve to fill the dosing chamber 5 . The dosing chamber 5 is dimensioned such that it contains exactly the desired amount of the material to be examined or of reagent when the filling is completely full. The mixing space 4 has a marking 14 up to which the reagent can be poured into the mixing space so that it can be brought into the correct relationship with the medium entering from the dosing space 5 through the openings 6 .

In the exemplary embodiment according to FIG. 2, the hollow body 1 again consists of a round tube, which in this case, however, is closed at its lower end by a housing base 15 which is subsequently inserted. According to another embodiment, not shown separately here, this housing base 15 can also be designed as a controllable closure member. Instead of the insert 3 shown in FIG. 1, the hollow body is divided by an intermediate wall 16 into the metering chamber 5 and the mixing chamber 4 in this embodiment. Both rooms are in turn connected to one another by openings 6 . These openings are controlled by the closure member 2 , which in turn is connected to the actuating button 9 via the rod 8 . In this case, the rod 8 is supported in a tube 17 connected to the intermediate wall 16 . The dosing chamber 5 is closed at the top by a housing cover 18 in which the filling openings can be closed by plugs 19 . Here, too, a compression spring 20 ensures that the closure member 2 is guided upward again as the pressure on the actuating button 9 decreases, in accordance with the arrow 7 shown.

In the two exemplary embodiments FIG. 1 and FIG. 2, the openings 6 connecting the metering chamber 5 and the mixing chamber 4 to one another can be controlled by moving the closure member 2 . In principle, it is possible without inventive effort to arrange the closure organ 2 in a stationary manner and to control the openings 6 , for example in the exemplary embodiment according to FIG. 1, by moving the insert 3 . Furthermore, the openings 13 connecting the dosing chamber 5 to the atmosphere can be controlled in a similar manner by moving the closure member 2 by means of an additional, but not separately shown, closure body.

In the exemplary embodiment according to FIG. 3, again one can see the hollow body 1 designed as a round tube, the lower end of which is firmly closed as in FIG. 1. In this case, however, the insert 3 is divided into two dosing spaces 21 and 22 , so that the medium to be tested, which is to be introduced into the dosing space 22 , for example, can be connected to two different reagents, the reagent 1 in turn in the mixing space 4 and the reagent 2 is contained in the dosing chamber 21 . The closing element in this case consists of a distributor rod 23 which is rotatably mounted in the hollow body 1 and which is designed such that the openings 24 and 25 of the metering chambers 21 and 22 can be connected to the mixing chamber 4 by its movement. This is possible, for example, that the distributor bar 23, not shown, having a known circumferential grooves that are arranged so that the openings 24 and 25 either to each other or separated from each other in certain positions connect to the mixing chamber. 4 In the embodiment shown here, the distributor rod 23 is designed as a tube, as can be seen at the interface 23 a . In the side wall of this tube, openings 26 and 27 are present, which either connect the opening 24 or the opening 25 to the interior of the tube, depending on whether the tube is rotated to the left or right by means of the rotary knob 28 according to the arrow 29 drawn .

In the exemplary embodiment according to FIGS. 4, 4a and 5, the control of the openings connecting the individual spaces takes place, as in the exemplary embodiments according to FIGS. 1 and 2, again by an axial movement of the actuating button 9 . Here, too, as described in the exemplary embodiment in FIG. 3, the closure member consists of a distributor rod 23 which is axially movable in the hollow body 1 , but which, in contrast to the rotatably movable bearing according to the exemplary embodiment according to FIG. 3, now as in the exemplary embodiments according to FIG . is movable in the axial direction 1 and 2. The section along the line VV of FIG. 4 shown in FIG. 5 also clearly shows how the two metering spaces 21 and 22 are separated from one another by an intermediate wall 30 . The distributor rod 23 , which is designed as a tube, in turn has openings 26 and 27 in the side wall, which can be made to coincide with the openings 24 and 25 during the axial movement of the distributor rod in accordance with the arrow 7 shown and in this way the metering chambers 21 and 22 connect the mixing room 4 . In order to control the position of the distributor rod 23 serving as a locking member, the movements of this rod can be limited by the grids shown in FIG. 4a, which shows a section along the line IV a - IV a of FIG. 5. These grids consist of depressions 31 into which a projection formed as a spring-mounted ball 33 projects. This projection can be stored, for example, in the hollow body 1 guiding the distributor tube or, as in the exemplary embodiment illustrated, in the cover 32 covering the hollow body.

As can be seen, the ball 33 is pressed into the recesses 31 of the distributor rod 23 by means of a spring 34 . Furthermore, one can see a projection 35 which is mounted in the cover 32 and which slides in a groove 36 in the distributor rod 23 and prevents the distributor rod from rotating.

A particularly advantageous embodiment of the invention that is easy, safe and reliable to handle is explained with reference to FIGS. 6 to 12. Here, FIG 6 wherein 3 shows. A side view of the device, which in turn consists of a hollow body 1 with a dot-line insert 3, the hollow body as in the embodiments of FIGS. To 5 in a mixing space 4 and two dosing spaces 21 and 22 divided . The hollow body is closed off by an insert 3 and a distributor cover 37 .

Fig. 7 shows the design of the insert 3 as a sectional view along the line VII-VII in Fig. 9. This insert consists of an insert head 38 , the diameter of which is larger in the upper part than the inner diameter of the hollow body 1 . In the lower part 38 a , the insert is matched to the inside diameter of the hollow body, so that it can be inserted into the hollow body 1 up to the surface 38 b . The outer diameter at point 38 a is dimensioned such that the insert sits sealingly and firmly in the hollow body.

Only for ease of understanding, the inner surfaces of the hollow body 1 are shown in dash-dotted lines in the hollow areas, so that the metering spaces 21 and 22 can be seen. The central bore 39 is dimensioned such that the distributor rod 23 , not shown here, which serves as a closure member, can be inserted in a sealing manner, but rotatably and axially displaceably. Furthermore, the filling hole 40 can be seen in the insert head 38 , which serves to fill the dosing space 21 . In addition, there is a bore 41 into which a bolt can be inserted in order to limit the rotational movement of the distributor cover 37 connected to the distributor rod, as will be explained later. A part of a grid consisting of a ball 33 and a spring 34 , which are separated by a disk 33 a , can also be seen. This screening has similar tasks here as the screening already described above with reference to FIG. 4a. Also shown in the figure is a bore 42 which serves to vent the metering chamber 22 . The bore 22 b is used for emptying the metering chamber 22 into the mixing chamber, the air equalization taking place through the bore 22 a . Likewise, holes 21 b and 21 a can be seen, which are used for emptying or air equalization of the mixing space 21 .

FIG. 8 shows another section through the insert 3 , specifically along the line VIII-VIII in FIG. 10. Here again the insert head 38 can be seen with its lower part 38 a and the central bore 39 . Furthermore, the bore 42 can be seen as well as a bore 43 for filling the dosing chamber 22 and a bore 44 , which serves to vent the dosing chamber 22 to the outside. This bore 44 is by means of a bore 45 with the Innenboh tion 39 and thus connected to the closure member, not shown. In the upper part of the insert head 38 one can see so-called O-rings 46 , which serve to seal and enable the rotary movement of the distributor cover 37, not shown here, relative to the insert head 38 .

Fig. 9 shows a top view of the insert head 38 with its central bore 39, the two bores 43, 44, the filling bore 40 and the bore 41.

FIG. 10 shows a section through the insert 3 , specifically along the line XX of FIG. 7. In this case, the central bore 39 is filled by the distributor rod 23 , the wall of which has a bore 54 . For the rest, 10 seen in this Fig., In turn, the two dosing spaces 21 and 22 with their bores 21 a and 22 a as well as the bores 43 and 44.

Fig. 11 shows the firmly connected to the distributor cover 37 manifold bar 23 in a section along the line XI-XI of Fig. 12. In the manifold cover 37 to recognize a filling opening 47 which can be a with the bore 43 via the hole 43, so that the medium to be examined can be fed to the dosing chamber 22 . There is further shown a stop screw 48 which can be screwed through a bore 48 in a distributor cover 37 in the insert head 38, in the position shown in Fig. 7 bore 41. As will be explained below with reference to FIG. 12, this stop screw 48 serves to limit the angle of rotation of the distributor cover 37 .

In order to press the distributor cover 37 firmly onto the insert head 38 , a so-called tension collar 51 is provided ( FIG. 6), which is only drawn in sections for the sake of clarity. Screws 50 which can be inserted into threaded bores 49 serve to fasten the tension collar 51 to the distributor cover 37 . The housing edge of the hollow body 1 is also indicated again for better understanding. In this way, the United distributor cover 37 can be pressed with its lower surface firmly onto the upper edge of the insert head 38 . With appropriate dimensioning of the metering spaces, it can then be achieved that the amount of substances that can be filled into the metering spaces through the openings in the lid can be metered by the rotary movement of the distributor lid, in that excess quantities are stripped off by means of the distributor lid.

The various bores arranged in the distributor bar serve to connect the individual spaces of the insert 3 to the central bore 55 of the distributor bar 23 . In this case, the bore 52 serves to connect the upper vent bore 42 and the bore 53 to connect the central vent bore 45 to the central bore 55 . A section taken along the dash-dotted line XI a -XI a is shown in Fig. 11a.

The bore 54 serves to connect the lower ventilation bore 22 a and the bore 21 a ( FIG. 7) with the central bore 55 . The arrangement of this hole can be seen from the section along the dash-dotted line XI b -XI b according to FIG. 11b.

The opening 56 serves to connect the bore 22 b of the metering chamber 22 with the central bore 55 of the distributor pipe. Here, too, a section XI c -XI c shown in broken lines is shown in FIG. 11c. Finally, one can see a hole 57 which can be brought into alignment with the bore 21 b of the dosing chamber 21 and thus connects this dosing chamber 21 to the central bore 55th Again, a section taken along the dash-dotted line XI d -XI d is shown in FIG. 11d.

The central bore 55 is open at its lower end 55 a , so that all ge from the metering spaces 21 , 22 in the central bore ge long media can then get into the mixing chamber 4 ( Fig. 6) of the hollow body 1 .

Fig. 12 shows a plan view of the distributor cover 37 and shows how turning this distributor cover ensures that only predetermined openings are released. One recognizes in this Fig. 12 again the fill opening 47 with the bore 43 a , which in this position of the distributor cover 37 is located directly above the bore 43 , so that the medium to be examined, for example water, through the fill opening 47, the bore 43 a and the bore 43 can get into the metering chamber 22 . In addition, the bore 59 of the bore 44 of the insert 3 is opposite, so that the metering chamber 22 can be vented.

Through a bore 48 a of the description, according to in Fig. 11, the stop screw is not shown here are run 48 which slides in the annular groove 48 b and thereby limiting the angle of rotation of the distributor cover 37. Finally, one can also see in this figure the dashed grooves 58 into which the ball 33 illustrated in FIG. 7 can snap in, so that it is ensured that the correct spaces are also assigned to each metering and mixing process. A final groove 58 a , which can also be seen in Fig. 11, can be designed so that the ball 33 ( Fig. 7) can no longer disengage, so that a final catch is formed, which prevents the distributor cover 37 from rotating.

Up to now, the device according to FIGS. 6 to 12 has been described in such a way that a mixing space 4 is assigned a dosing space 21 for a reagent and a dosing space 22 for the medium to be examined. As can be seen in Fig. 6, the mixing chamber 4 is formed in its lower part as a hollow cone placed on the top, which can be arranged so that its upper limit can also be used as a metering measure, so that the mixing chamber 4 as Dosing room can be used. In this case, in addition to the medium to be examined, two reagents can be introduced into the device according to the invention. It is only a question of the arrangement of the openings in the distributor bar 23 , in which order the dosing spaces 21 and 22 are to be emptied into the mixing space 4 .

As already mentioned, the device according to the invention is suitable for examining a wide variety of media, both in liquid and in granular or granular form. It is also not limited to the exemplary embodiments shown, but can be changed in various ways without changing the basic idea of the present invention. For example, it is possible to form the closure member 2 or the housing cover 18 or the distributor cover 37 in such a way that it itself contains one or more dosing spaces. In the execution example according to FIG. 6, this is for example possible because the size of the filling opening is a dimensioned 47 (Fig. 11, 12) and the bore 43 in that they have a volume which corresponds to the ge desired dosage amount, if the opening 43 a is closed down by the upper surface of the insert head 38 .

From the exemplary embodiments it can be clearly seen that the device according to the invention is very easy and safe to use even for a layperson. For example, for amateur examinations of fish water, the mixing room 4 can already be filled in the factory with a reagent of the amount required for the examination. Possibly the dosing space 21 can already be filled with another reagent and closed with a stopper 40 a ( FIG. 7). This amount of reagent can then deviate from the volume of the dosing space 21 , which was indicated in FIG. 6, for example, by the fact that the reagent does not reach the upper edge of the dosing space 21 . By simply twisting the distributor cover 37 , the reagents and the medium to be examined are introduced into the mixing area in the sequence corresponding to the program, so that no examination errors can be made here either.

A color comparison scale 60 , as shown in FIG. 6, can be provided in that area of the mixing space in order to be able to more easily interpret the discoloration of the mixture that occurs when the medium to be examined is mixed with the reagents and thereby to infer the composition of the medium to be examined . which is clearly see-through.

A particular advantage of the illustrated embodiment is that it can be used as a disposable device if the distributor cover 37 cannot be removed from the distributor rod 23 . In this case, the arrangement of the holes means that the mixing chamber itself can no longer be connected to the atmosphere and thus the mixture cannot be poured out. This also ensures that pollution of the mixture is avoided by pouring out the mixture.

Claims (25)

1. Device for metering and mixing small amounts of substance, in particular for chemical tests, characterized by a hollow body ( 1 ), in particular serving as a mixing chamber ( 4 ), preferably provided with a scale ( 14 ), and by an associated closure member ( 2 ), that contains a dosing chamber and / or with the help of which at least one dosing chamber ( 5 ) of the hollow body ( 1 ) can be controlled. 2. Device according to claim 1, characterized in that the Hollow body from a round or closable on both sides there is an angular tube, at least at one end of the closure organ is assigned. 3. Device according to claim 1 or 2, characterized in that the hollow body consists of clear material at least in the region of the mixing chamber ( 4 ). 4. Device according to one of claims 1 to 3, characterized in that the hollow body is divided by means of an insert ( 3 ) into the mixing space ( 4 ) and at least one dosing space ( 5 ) and the individual spaces are connected to one another by openings ( 6 ) are controllable by the closure member ( 2 ). 5. The device according to claim 4, characterized in that the hollow body has one or more openings ( 6 ) with intermediate walls ( 16 ). 6. Apparatus according to claim 4 or 5, characterized in that the openings ( 6 ) connecting the individual rooms can be controlled by means of a rotary movement of the closure member. 7. Apparatus according to claim 4 or 5, characterized in that the openings ( 6 ) connecting the individual spaces can be controlled by means of an axial movement of the closure member ( 2 ). 8. The device according to claim 4, characterized in that the individual spaces ( 4 , 5 ) connecting openings ( 6 ) can be controlled by moving the insert ( 3 ). 9. Device according to one of claims 6 to 8, characterized in that by means of the movements of the closure member ( 2 ) and / or the insert ( 3 ) also the individual rooms with the atmosphere connecting openings ( 13 ) are controllable. 10. Device according to one of claims 6 to 9, characterized in that the movements of the closure member or the insert can be limited by grids ( 31 , 33 , 35 , 36 , 48 , 48 b , 58 ). 11. The device according to claim 9, characterized in that the grids are detachable. 12. The apparatus of claim 10 or 11, characterized in that the grids consist of depressions ( 31 , 36 , 48 b , 58 ) into which at least one projection ( 33 , 35 , 48 ) protrudes. 13. The apparatus according to claim 12, characterized in that the projection is resiliently mounted. 14. The apparatus according to claim 13, characterized in that the projection consists of a spring-loaded ball ( 33 ). 15. The device according to one of claims 1 to 14, characterized in that the closure member consists of a rotatable and / or axially movably mounted distributor rod ( 23 ) in the hollow body. 16. The apparatus according to claim 15, characterized in that the distributor bar has circumferential grooves arranged in this way are that for programmable opening, closing and Connect the rooms with each other or with serve openings connecting the atmosphere. 17. The apparatus according to claim 15, characterized in that the distributor rod ( 23 ) is designed as a tube and has openings ( 52 , 53 , 54 , 56 , 57 ) in the side wall, which are arranged such that they for programmable opening, closing and connecting the individual openings ( 21 a , 21 b , 22 a , 22 b , 42 , 45 ) of the insert ( 2 ) which serve to connect the rooms with one another or with the atmosphere. 18. Device according to one of claims 1 to 17, characterized records that the closure member has openings that are assigned to the openings of the dosing rooms in such a way that when moving the closure member to connect the dosing serve spaces with the atmosphere.   19. Device according to one of claims 1 to 18, characterized in that the openings of the closure member and / or the distributor rod are arranged such that the mixing chamber ( 4 ) at any position of the closure member and / or the distributor rod against the atmosphere is completed is. 20. Device according to one of claims 1 to 19, characterized in that the closure member consists of a rotatable with respect to the separating the individual spaces of the hollow body from each other use of the distributor cover ( 37 ) provided with openings ( 43 a , 59 ) and against the insert ( 3 ) is sealed so that the openings of the insert ( 3 ) can be closed from the atmosphere. 21. The apparatus according to claim 20, characterized in that the distributor cover ( 37 ) with the distributor rod ( 23 ) is fixedly connected. 22. The apparatus of claim 20 or 21, characterized in that the openings ( 43 a , 59 ) of the distributor cover ( 37 ) are arranged such that in each case only one dosing chamber can be connected to the atmosphere. 23. The device according to claim 20, characterized in that the amount of in the dosing through the openings of the Lid of fillable substances by the rotating movement of the lid is dosed. 24. The device according to claim 20, characterized in that the angle of rotation of the lid is limited by an annular groove ( 48 b ) which is present in the lid or in the insert and into which a projection ( 48 ) of the insert or the cover protrudes. 25. Device according to one of claims 1 to 24, characterized in that the hollow body in the region of the mixing room is provided with a color comparison scale ( 60 ).