EP0862890B1 - Powder dosing device - Google Patents

Abstract

A novel unit doses powder with solvent. It includes a powder supply container (1) and a dosing opening which releases powder from the container. A unit (4, 5) supplies solvent, flushing the powder out, through the opening. In this new design, the dosing opening contains a sieve (3). Although the sieve is perforated, the perforations are at such an angle, that no opening is visible through the sieve, when observing perpendicularly to its plane. The underside of the sieve is sprayed with solvent. Preferable the sieve is a plastic plate with openings. The plate is Teflon (RTM) or polyvinyl chloride.

Description

The invention relates to a powder metering device for metering a powder in a solvent, with a powder storage container, a metering opening for discharging the powder from the container, a feed device for solvents, that rinses the powder out through the metering opening, and with a sieve arranged in the metering opening, which is separated from the the side facing away from the powder storage container with solvent is applied.

Powder dosing devices are from prior public use known and primarily serve the metering of powdered Cleaners in commercial dishwashing systems. The The metering opening is in the lower area of the powder container (usually on the floor) and is through a mesh screen locked. The powder is used for metering through this Mesh screen rinsed out.

The supply device for the solvent (usually Water) can either be above the mesh screen in the area the bed of powder or the mesh screen Rinse with water from below.

The mesh size of the screen used must be less than the average grain size of the powder to prevent unwanted slipping to prevent the powder. Therefore, when dosing the powder above the sieve should at least be dissolved. A detergent cake is formed, which lightly cakes and clogs the sieve. This problem occurs particularly when the water is applied from the side of the sieve on which the powder spill rests. For a cleaning cake once made to dissolve again and to be able to meter in powder effectively, the state of the art with hot water (above 60 ° C) as Solvent work. On the one hand, this is complex, on the other hand hot water reduces or destroys the effect of enzymatic Cleaners because enzymes break down at high temperatures become.

From US-A-5,229,084 is a generic powder metering device known. In this known device Powder from a relatively narrow space between one in the dosing opening arranged and a sieve arranged above Cover cap rinsed out.

The invention has for its object a reliable and easy to use powder metering device to create the type mentioned above.

The invention solves this problem in that the screen openings of the sieve perpendicular to the sieve plane no clear cross-section exhibit.

The term "sieve level" refers to a flat sieve (i.e. H. when forming the sieve as a sieve plate) Main level, d. H. the level of greatest extension. If that Sieve a curved shape (for example a dome shape) has the term sieve plane the tangential plane of the Siebs at the location under consideration.

The screen openings have no clear openings perpendicular to the screen level Cross section on. This means that the sieve has a certain Has thickness and that the screen openings, i.e. H. the passage openings through the screen, so inclined or curved run through the sieve so that the inlet opening and an associated outlet opening from the opposite Screen side do not overlap each other in such a way that this sieve opening seen perpendicular to the sieve plane has a clear cross section.

According to the invention, the sieve is removed from the powder storage container opposite side (i.e. from the powder spill opposite side) with solvent. This The type of water exposure makes it easier to dose the Powder and leads to little or no formation a powder cleaner cake over the sieve.

The inventive design of the screen openings without thinning Cross section to the sieve level causes that when empty or almost empty powder container a water exposure of the Siebs cannot cause water to any appreciable extent splashes up through the sieve. Usually the sieve is arranged in the bottom area of the powder container. If the powder container is almost empty, take its lid for the purpose Refilling powder and accidentally the Water supply device put into operation prevents the construction of the sieve according to the invention that water and thus Cleaner residues through the sieve upwards out of the container and possibly in the face of an operator squirt. This security inherent in the invention is a significant advantage.

The sieve openings are preferably inclined to the sieve plane Passage channels are formed, which are particularly preferred Through channels formed as through slots.

In an advantageous embodiment of the invention inclination angle of the passageways included with the sieve plane less than or equal to the slope angle of the to be metered in Powder. The term slope angle of a powder is explained in more detail below. Basically the slope angle the smaller the free-flowing powder is, the smaller. In the case of a very free-flowing powder, the passage channels should be not too steep, d. H. the one with the sieve level included angle of inclination must not be too large, preferably not larger than the angle of repose of the powder. It is achieved that the powder spill does not or at most to a small extent by itself, d. H. without exposure to solvents, passes through the sieve. At a Little free-flowing powder can have a steeper arrangement Passage channels (again up to the slope angle of the Powder) to be useful for rinsing through the sieve facilitate. Preferred areas of that included with the sieve plane The angle of inclination of the passage channels is 20 to 60 °, more preferably 30 to 45 °.

The clear width of the passage channels is preferably larger than the average grain size of the powder to be metered in. The term "clear width" denotes the smallest width of the Passage channels transverse to their main course direction. at the formation of the passage channels as passage slots is the clear width the slot width in the direction of the course. The clear width of the passage channels is preferably 1.5 up to 2.5 times, more preferably about twice as large as that average grain size of the powder to be dosed. This training the passage channels also allow rinsing whole powder grains through the sieve. The one charged from below Water can powder the purely mechanical way rinse out, no previous dissolving is required. The Formation of an unwanted powder cake above the sieve is reduced or avoided in this way. Particularly preferred is the combination of the specified width with an angle of inclination of the passages equal to or is slightly smaller than the slope angle of the powder. On this way is with relatively small amounts of water or press a rinse and thus metering the Powder possible. Is the use for certain reasons higher water quantities and / or pressures desired, you can Reduce the angle of inclination of the channels so that rinsing is difficult. Preferred areas of the clear width of the Passage channels are, for example, 1.5 to 4 mm, preferably 2 to 3 mm.

The described adjustment of inclination angle and lights The width of the passage channels makes it difficult to rinse out Powders that tend to cake, for example rinse with cold water and dispense. The invention Combination of inclination angle and clear width may also be independent of the characteristics of the main claim be used, especially when spurting out of water from the powder container by others Measures are prevented, for example an automatic Shut off the water supply when opening the lid.

The solvent is preferably applied by means of a hollow cone or full cone nozzle, which is different from that of the powder bed facing away from the sieve. A hollow cone nozzle is preferred when dosing should be done with small amounts of solvent.

The cone angle is preferably at the inclination of the sieve openings customized. It therefore corresponds to the angle of inclination Sieve openings or is at least similar to this, so that Solvent directed through the sieve openings and can also act mechanically on the powder bed.

The screen is preferably provided with a screen opening (preferably flat) plastic plate formed. The Plastic plate can for example be a Teflon or PVC plate his. A Teflon sheet is due to its temperature resistance preferred with alkaline cleaners, with their Solution in water high temperatures can arise. Because Teflon tending to cold flow, the plate can be reinforced by ribs or bridges. With low alkali or -free cleaners (e.g. enzymatic cleaners) the plastic plate can be made of another material, for example PVC be made.

Fig. 1

einen Längsschnitt durch eine erfindungsgemäße Pulverdosiervorrichtung;

Fig. 2

eine Draufsicht von oben;

Fig. 3

eine Draufsicht auf ein erfindungsgemäßes Sieb aus PVC;

Fig. 4

einen Schnitt entlang der Linie A-A in Fig. 3;

Fig. 5

eine Draufsicht auf ein erfindungsgemäßes Sieb aus Teflon;

Fig. 6

einen Schnitt entlang der Linie B-B von Fig. 5;

Fig. 7 und 8

zwei Ansichten eines Nachfüllbeutels für den Pulverdosierbehälter von der Seite.

An embodiment of the invention is described below with reference to the drawings. In it show:

Fig. 1

a longitudinal section through a powder metering device according to the invention;

Fig. 2

a top view;

Fig. 3

a plan view of an inventive sieve made of PVC;

Fig. 4

a section along the line AA in Fig. 3;

Fig. 5

a plan view of an inventive screen made of Teflon;

Fig. 6

a section along the line BB of Fig. 5;

7 and 8

two views of a refill bag for the powder dosing container from the side.

First of all, let's take the measurement method to determine the above Slope angle of a powder described.

Above the face of a vertical full metal cylinder with a diameter of 50 mm and about 8 mm in height a metal sieve is attached at a distance of 30 to 100 mm. The exact distance from the metal screen and metal cylinder depends on the pourability of the powder to be measured and should be slightly larger than the height of the cone. The powder is poured onto the metal sieve and with the help of a plastic spatula is slowly pushed through the sieve. The falling powder builds one on the metal cylinder Cone on. You pass powder through the sieve as long as until there is a geometrically uniform shape on the cylinder Cone has formed. The strainer is removed and the height of the pouring cone. From this height and the diameter of the metal cylinder can the angle of repose of the powder be calculated. It is the angle that the cone shell with the face of the metal cylinder on which the powder cone rests, includes.

The powder metering device shown in FIG. 1 has one Powder storage container 1, whose lower part in the base 2 of the powder metering device is used. The powder dosing container 1 tapers downwards and points one open floor. The bottom area of the container is limited through a sieve 3 arranged in the base 2, the Design can be seen from FIGS. 3 to 6. Below of the sieve 3 is a cone nozzle 4 which is arranged by a Water supply line 5 is fed. The one in the dosing device resulting mixture or solution of powder with or in water is from the connector 6 and a dishwasher fed. In powder 1 is one with sharp tops provided cutting device 7 arranged.

3 and 4 show a possible embodiment of the Siebs 3. A PVC plate 8 is with inclined slots 9th trained passage channels provided. The passage channels are arranged mirror-symmetrically to the line C-C. On Such a sieve is easy to manufacture in terms of production technology. It However, it is also possible and advantageous under certain circumstances Passage slots not in one half of the sieve plate 8 parallel to each other, but for example in shape of several rings concentric with each other. This arrangement in concentric rings can be due to the improved adaptation to the spray cone of the nozzle 4, the rinsability of the powder still improve.

Fig. 5 shows a second embodiment of the sieve. The Sieve plate 10 here consists of Teflon. Because this material too cold flow tends, reinforcing ribs 11 are provided. The three arranged at a circumferential angle of 120 ° to each other Reinforcing ribs 11 divide the surface of the sieve plate 10 in three segments, on each segment are each other parallel, inclined passage slots 12 are arranged.

4 and 6 it can be seen that the slots 9 and 12 are inclined so that their opposite Inlet and outlet openings seen perpendicular to the sieve plane do not overlap, i.e. the sieve openings in this direction have no clear cross-section. If you apply that Sieve from the bottom of the nozzle 4 with water, can thus itself with empty or almost empty powder container 1 water not over the top of the powder container 1 also one of User looking up into container 1 in the face squirt. The top of the powder container 1 is in operation usually by one not shown in the drawing Lid closed.

3 and 4 is for dosing an enzymatic cleaner is provided, the one has average grain size of about 1 mm. The angle of inclination the passage slots 9 is 45 °, the inside width of the Slots 2 mm. The angle of repose of the powder to be dosed is 60 °, which is slightly larger than the angle of inclination Passage slots.

The powder container 1 is expediently refilled with the help of a refill bag shown in FIGS. 7 and 8. The bag 13 consists of a plastic film, and is Provide handle openings 14 for better handling. The Cross section of the bag 13 tapers downwards in the direction towards the floor area 15. The tapered bottom of the Bag is designed as a pouring opening through a Plastic film 15 with compared to the rest of the bag material reduced strength is locked. The cross-sectional area of the bag in the middle area (in level D-D in 7) is approximately 1.5 to 3 times, preferably approximately 2 to 2.5 times the cross-sectional area in the tapered lower one Area (level E-E in Fig. 7).

The bag 13 is gripped at the openings 14 for refilling and placed in the powder container 1. The cutting device 7 penetrates the bottom film 15 from the comparison to the remaining bag material softer material. As a bottom film is, for example, a thin film of a PET / PE (polyethylene terephthalate / polyethylene) composite suitable. The bag 13 is then slowly raised and empties through the slit bottom into the powder container 1. The tapering towards the bottom of the bag Form ensures that the bag is emptied completely. To refill the entire contents of a bag with 3 kg of content you need about 15 s. Refilling happens clean and practically dust-free, without the There is a risk of powder spillage.

The powder in the container 1 rests on the sieve and is rinsed out if necessary by starting the nozzle 4 or dissolved and through the discharge opening 6 of the dishwasher fed. The base 2 of the powder metering device can still one not shown in the drawing Have overflow, then through the water / detergent mixture can emerge when the discharge opening 6 clogs once should be.

Claims (11)

1. Powder metering device for metering a powder into a solvent, having a powder storage container (1), a metering opening for discharging the powder from the container (1), a feed device (4, 5) for solvent which flushes the powder through the metering opening, and having a screen (3, 8, 10) which is arranged in the metering opening and is acted on by solvent from the side which is remote from the powder storage container (1), characterized in that the screen openings (9, 12) of the screen (3, 8, 10) do not have a clear cross section in the direction perpendicular to the screen plane.
2. Powder metering device according to Claim 1, characterized in that the screen openings are designed as passages (9, 12) which are inclined with respect to the screen plane.
3. Powder metering device according to Claim 2, characterized in that the passages are designed as slots (9, 12).
4. Powder metering device according to Claim 2 or 3, characterized in that the angle of inclination included between the screen plane and the passages (9, 12) is less than or equal to the angle of repose of the powder which is to be metered.
5. Powder metering device according to one of Claims 2 to 4, characterized in that the angle of inclination which is included between the screen plane and the passages (9, 12) is 20 to 60°, preferably 30 to 45°.
6. Powder metering device according to one of Claims 2 to 5, characterized in that the clear width of the passages (9, 12) is 1.5 to 2.5 times as great, preferably twice as great, as the mean particle size of the powder which is to be metered in.
7. Powder metering device according to one of Claims 2 to 6, characterized in that the clear width of the passages (9, 12) is 1.5 to 4 mm, preferably 2 to 3 mm.
8. Powder metering device according to one of Claims 1 to 7, characterized in that the solvent is applied by means of a hollow-cone or solid-cone nozzle (4).
9. Powder metering device according to Claim 8, characterized in that the cone angle is matched in the inclination of the screen openings (9, 12).
10. Powder metering device according to one of Claims 1 to 9, characterized in that the screen has a plastic plate (3, 8, 10) which is provided with screen openings (9, 12).
11. Powder metering device according to Claim 10, characterized in that the plastic plate is a Teflon or PVC plate (8, 10).

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