EP2110316A1 - Device for transferring bulk material stored in a storage container - Google Patents

Abstract

The device has a supply container (1) for storing a bulk material of individual products. The supply container comprises a product outlet (2) with an outlet opening (21) having substantially rectangular shape. A perforated plate (4) is sewed to receive the individual products from the product outlet. A hole-free product inlet surface of the perforated plate has surface width in a direction perpendicular to the transport direction. The outlet opening of the product outlet of the supply container includes opening unit width in the direction perpendicular to the transport direction.

Description

The invention relates to a device for transferring stored in a reservoir, formed from individual products bulk material to the individual products in the wells of a continuously or clocked moving film web transfer transfer device, with a product outlet of the reservoir downstream downstream perforated plate.

Such devices are used, in particular, as part of a workstation in thermoforming machines, which transfer individual products to be packed in blister packs to the transfer device for further processing. In devices known from the prior art, the individual products are given as bulk material through the outlet opening of the product outlet on the perforated plate, which serves to promote a possible single-layer product carpet in the direction of transfer device and thereby cause a dust and Bruchausscheidung through the holes of the perforated plate , Directly below the outlet opening of the product outlet, the perforated plate must have no holes, since the resting on the perforated plate individual products are pressed by the overlying product column on the perforated plate, which is damaged by the edges of the holes could lead to more breakage, which would subsequently have to be eliminated.

The invention is therefore based on the object, a device of the type mentioned in such a way that the effectiveness of the dust and Bruchausscheidung the perforated plate is increased.

This object is achieved according to the invention in a device of the type mentioned above in that the outlet opening of the product outlet has an oriented on a rectangle basic shape with a width of the perforated plate approximate width and aligned to the size of the individual products length, and that the perforated plate Having below the product outlet a corresponding with the length of the outlet opening product inlet surface free of holes.

This design of the device on the one hand achieves the advantage that the available length of the perforated plate is better utilized because, in contrast to a round outlet opening of the product outlet, the product inlet area can be smaller, namely shorter. Another advantage results from the fact that the shape of the outlet opening is oriented with respect to their width on the width of the perforated plate, so that in the conveying direction only a shorter length of the perforated plate is needed to fan the product carpet to the full width of the perforated plate.

As very particularly preferred has been shown in the invention, when the outlet opening is rectangular in shape with a 10-95%, in particular 75-85% of the width of the perforated plate corresponding width and / or a length corresponding to 2 to 12 times, in particular 5 to 8 times the size of the products. In this embodiment, a particularly high surface efficiency of the perforated plate results as the ratio of the areas under the product outlet to the effective perforated plate surface, since the product inlet surface is tuned in the conveying direction to the size of the outlet opening, which in turn is based on the size of the individual products, although quite individual products Size can be processed with the device according to the invention within the above-mentioned intervals.

It is also favorable if the product inlet surface has 3 to 8 times the size of the outlet opening, since the individual products from the product column can fan out into a product carpet before the holes of the perforated plate are reached and thus the risk of breakage is reduced. A lower load also results from the fact that in the rectangular design of the outlet opening the volume of the product column over the product inlet surface is smaller and thus results in a smaller volume flowed through by the individual products in the product outlet, so that with an equal number of individual products flowing through the residence time the individual products in the product column are reduced, thereby reducing the risk of damaging the individual products in the product column.

Further preferred within the scope of the invention, when the perforated plate is provided several times in a direction perpendicular to the conveying direction Reihung with a width of the outlet opening defining effective width. In this embodiment, the performance of the device according to the invention is thereby significantly increased in a simple manner, that two perforated plates arranged side by side are used, whose overall width determines the effective width at which the dimensioning of the outlet opening is oriented. With this embodiment, a high utilization efficiency of the product outlet is achieved, which is defined as the ratio of the width of the product outlet to the effective useful width of the perforated plates. In the embodiment according to the invention, a utilization efficiency of approximately 0.9 is achieved, which is significantly increased compared to previously known embodiments.

It has proved to be expedient that the perforated plate arranged on a plate holder is assigned at least one vibration drive for conveying the products from the product outlet to the transfer device.

Fig. 1

eine perspektivische Darstellung der erfindungsgemäßen Vorrichtung,

Fig. 2

eine Sicht aus Richtung des Pfeiles II aus Fig. 1,

Fig. 3

eine perspektivische Darstellung der isolierten Plattenhalterung mit den zugeordneten Lochplatten und den Klemmleisten,

Fig. 4

das Detail IV aus Figur 3,

Fig. 5

das Detail V aus Figur 3,

Fig. 6a bis Fig. 6c

drei Darstellungen zur Trennung der Spannschraube von der Klemmleiste,

Fig. 7a

eine perspektivische Darstellung der Lochplatte von oben gesehen,

Fig. 7b

eine perspektivische Darstellung der Lochplatte von unten gesehen,

Fig. 8a

eine Darstellung zur Erläuterung des Zusammenwirkens des Produktauslaufes mit der Lochplatte gemäß dem Stand der Technik,

Fig. 8b

eine der Figur 8a entsprechende Darstellung der Gegebenheiten bei der erfindungsgemäßen Vorrichtung,

Fig. 9

eine Seitenansicht der Plattenhalterung mit dem Schüttgutnivellierer in einer ersten Drehlage,

Fig. 10

eine der Figur 9 entsprechende Darstellung mit dem Schüttgutnivellierer in einer zweiten Drehlage,

Fig. 11

eine Darstellung zur Vorbereitung der Entfernung des Schüttgutnivellierers, und

Fig. 12

eine der Figur 11 entsprechende Darstellung nach der Trennung des Schüttgutnivellierers von der Plattenhalterung.

In the following the invention will be explained in more detail in an embodiment shown in the drawing; show it:

Fig. 1

a perspective view of the device according to the invention,

Fig. 2

a view from the direction of the arrow II Fig. 1 .

Fig. 3

a perspective view of the insulated plate holder with the associated perforated plates and the terminal strips,

Fig. 4

the detail IV off FIG. 3 .

Fig. 5

the detail V off FIG. 3 .

Fig. 6a to Fig. 6c

three illustrations for separating the clamping screw from the terminal strip,

Fig. 7a

a perspective view of the perforated plate seen from above,

Fig. 7b

a perspective view of the perforated plate seen from below,

Fig. 8a

a representation for explaining the interaction of the product outlet with the perforated plate according to the prior art,

Fig. 8b

one of the FIG. 8a corresponding representation of the circumstances in the device according to the invention,

Fig. 9

a side view of the plate holder with the bulk material leveler in a first rotational position,

Fig. 10

one of the FIG. 9 corresponding representation with the bulk material leveler in a second rotational position,

Fig. 11

a representation for preparing the removal of the bulk level, and

Fig. 12

one of the FIG. 11 corresponding representation after the separation of Schüttgutnivellierers of the plate holder.

Thermoforming machines are used in particular in the pharmaceutical industry to package individual products such as tablets, dragees, pills or the like in blister packs, for which first a thermoforming machine is withdrawn from a supply roll as a film web and fed to a heating station in which the mold film is heated to deformation temperature and a forming station is fed, in which the wells of the blister packs are formed. In the so-trained wells then the individual products must be transferred, which are provided as bulk material. In order to simplify the transfer of the individual products from the bulk material into the wells of the film web, the device according to the invention ( Fig. 1 ) as a coupling member between the reservoir 1 and the individual products in the wells of the film web transfer transfer device.

The device according to the invention comprises in addition to the reservoir 1 with its product outlet 2 on a base frame 24 in a plate holder 3 releasably and replaceably arranged perforated plate 4, which is downstream of the product outlet 2 downstream. In the embodiment shown, the perforated plate 4 is multiple, namely twice present in a direction perpendicular to the conveying direction of the individual products Reihung, thereby resulting in a very simple manner, an effective wide useful width. Each perforated plate 4 has a plurality of holes adapted to the diameter and the shape of the individual products, which retain intact individual products on the surface of the perforated plate 4, but allow the separation of breakage and dust. On the side facing away from the individual products of the perforated plates 4 are stiffening ribs 5 ( Fig. 7b ) are formed, which extend from the side edges inclined inwardly and thereby quadrilateral plate areas 6 separate from each other, wherein only in the plate areas 6 between the stiffening ribs 5, the holes are formed. At the front and rear end of the perforated plates 4 in the conveying direction bearing surfaces 7 are provided without stiffening ribs 5, which serve a well-defined edition of the perforated plate 4 in the base frame 24 with an improved coupling to a vibration drive to promote the products of the product outlet 2 the transfer device is provided. Since in a base frame 24, the majority of the perforated plates 4 can be arranged, a vibration drive is usually sufficient so that this results in a corresponding cost advantage. In addition to the support of the vibration drive can of course also run the base frame 24 inclined in the conveying direction, so as to take advantage of the effect of gravity.

The area directly under the product outlet 2 can not be used for fractional precipitation, since the resting on the perforated plate 4 Single products would be pressed from above through the overlying product column on the perforated plate 4 and the edges of the holes and the vibration movements of the perforated plate 4 could damage the individual products. The area below the product outlet 2 must therefore remain free of holes and is thus lost for the fractional precipitation, thereby resulting in an extension of the perforated plate 4, in order to achieve a complete product separation. Therefore, the requirements for the smallest possible space requirement with the highest possible performance existed as framework conditions. The achievement of these objectives is promoted by the fact that the outlet opening 21 of the product outlet 2 has a rectangular shape oriented to a width of the perforated plate 4 approximate width and aligned to the size of the individual products length, the perforated plate 4 below the product outlet with a Having the length of the outlet opening 21 corresponding product inlet surface 22 free of holes. In the apparatus, it is thus provided that as far as possible the entire width of the perforated plate 4 is utilized for the product separation in the application of the individual products to the perforated plate 4, so that a corresponding adaptation of the outlet opening 21 of the product outlet 2 results. By appropriate choice of the shape of the outlet opening 21, the length of the hole-free area of the perforated plate 4, so the product inlet surface 22 is limited and minimizes the area that does not contribute to breakage, since initially the individual products extending from the edges of the product outlet 21 to the Distribute edges of the perforated plate 4 ( Fig. 8a ). It has proven to be advantageous if the outlet opening 21 is designed rectangular with a 60 to 95%, in particular 75 to 85% of the width of the perforated plate 4 corresponding width and 2 to 12 times, in particular 5 to 8 times The size of the products corresponding length, wherein the product inlet surface 22 has 3 to 8 times the size of the outlet opening 21.

When transferring the individual products from the storage container 1 to the transfer device, it is important that the individual products rest on the perforated plate 4 in only one layer. Therefore, downstream of the perforated plate 4, a bulk material leveler 9 rotatable about a pivot axis 8 is arranged downstream of the perforated plate 4, which is detachably connected to the base frame 24 in order to enable the change of the perforated plates 4 located underneath the bulk material leveler 9. The bulk leveler 9 itself has at its the perforated plate 4 facing the free end of an elastic lip 10 to ensure a gentle treatment of the individual products; the rotational position of the bulk material leveler 9 itself can be fixed by a fixing element 11, namely a clamping screw with a toggle wheel, in order to allow adaptation to the size of the individual products ( Fig. 10 ). On the clamping screw itself an adjusting lever 12 is arranged. When changing the individual products to be packed in the wells of the film web a change of the perforated plate with adapted to the shape and size of the new individual products holes is also required, so that to achieve the shortest possible set-up of the device according to the invention a simple, fast and possibly only by a person should be possible. For the replacement of the perforated plates 4, therefore, the clamping screw is first loosened and twisted with the adjusting lever 12 of the bulk material leveler 9 so that it can be removed from an upwardly open screw holder 13 upwards.

The simple interchangeability of the perforated plates 4 is then given by the use of the plate holder 3 as a slide support 15 as a slide support 15 arranged terminal strips 14. Each terminal block 14 is mounted in a slide support 15 with a sloping to the vertical backdrop 16, wherein the backdrop 16th is formed by an open end control cam 17, in which the terminal block 14 with a guide pin 18 can be used. On the opposite side of the gate 16 of the terminal strips 14 is a clamping means, namely a clamping screw 19 is arranged, which engages in a downwardly inclined to the vertical guided screw bearing 23, wherein the inclination direction of the link 16 of the inclination direction of the clamping screw 19 corresponds, so that at a rotation of the clamping screws 19 in the clamping direction, the terminal block 14 is pulled downwards in total according to the inclination and clamps the perforated plate 4 against the plate holder 3. Again, to improve the cleaning possibility, the clamping screw 19 is releasably attached to the terminal block 14 ( FIGS. 6a to 6c ). The FIGS. 1 to 3 show that the terminal block 14 is provided several times in a side edges of the perforated plate 4 associated arrangement. Since in the embodiment shown two perforated plates 4 arranged side by side are present, the middle clamping bar 14 serves to load the two side edges of the left and right perforated plates 4. The presence of the middle clamping bar 14 also forces the formation of a receptacle 20 in the bulk material leveler 9. After removing the clamping screws 19 can be solved and the terminal strips 14 are moved in the gate 16 so that the guide pin 18 is removed from the open end cam 17 and thus the terminal block 14 can be removed from the disc holder 3. The perforated plates 4 are thus freely accessible and can be removed and replaced by other perforated plates 4, then only the previously cleaned terminal strips 14 used again with their guide pins 18 in the cam 17 and must be pivoted to the perforated plates 4 for subsequent clamping by means of Clamping screw 19.

LIST OF REFERENCE NUMBERS

1

reservoir

2

product outlet

3

drive bracket

4

perforated plate

5

stiffening rib

6

plate area

7

support surfaces

8th

swivel axis

9

Schüttgutnivellierer

10

elastic lip

11

fixing

12

adjustment lever

13

screw receptacle

14

terminal block

15

backdrop carrier

16

scenery

17

cam

18

guide pin

19

clamping screw

20

admission

21

outlet opening

22

Product inlet area

23

screw bearings

24

base frame

Claims (5)

Device for transferring bulk goods formed from individual products into a storage container (1) to a transfer device transferring the individual products into the wells of a continuously or cyclically-moved film web, with a perforated plate (4) downstream of the product outlet (2) of the storage container (1) , characterized in that the outlet opening (21) of the product outlet (2) has a basic shape oriented in a rectangle with a width approximating the width of the perforated plate (4) and a length aligned with the size of the individual products, and in that the perforated plate (4) below the product outlet (2) has a with the length of the outlet opening (21) corresponding product inlet surface (22) free of holes. Apparatus according to claim 2, characterized in that the outlet opening (21) is designed rectangular with a 60-95%, in particular 75-85% of the width of the perforated plate (4) corresponding width and / or a 2-12 times, in particular 5-8 times the size of the products. Apparatus according to claim 1 or 2, characterized in that the product inlet surface (22) has 3-8 times the size of the outlet opening (21). Device according to one of claims 1 to 3, characterized in that the perforated plate (4) is provided several times in a direction perpendicular to the conveying direction Reihung with a width of the outlet opening (21) determining the effective width. Device according to one of claims 1 to 4, characterized in that on a plate holder (2) arranged perforated plate (4) is associated with at least one vibratory drive for conveying the products from the product outlet (2) to the transfer device.

Images