EP2049063A1

EP2049063A1 - Device and method for ejecting at least one capsule

Info

Publication number: EP2049063A1
Application number: EP07765767A
Authority: EP
Inventors: Manfred Kuhnle; Ralf Schmied; Werner Runft; Thomas Franck
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2006-07-31
Filing date: 2007-07-03
Publication date: 2009-04-22
Anticipated expiration: 2027-07-03
Also published as: DE102006035280A1; CN101505711B; WO2008015065A1; CN101505711A; EP2049063B1; US20100164144A1; US8968622B2

Abstract

A device and a method for ejecting at least one capsule are proposed, comprising at least two ejecting means (18) for ejecting at least one capsule (24) from a holder (22) receiving the capsules (24), wherein drive control means (16, 20, 23) are provided in order to move the ejecting means (18) independently of one another in the ejecting direction, depending on whether the capsule (24) assigned to the ejecting means (18) is detected as in order or defective.

Description

Device and method for ejecting at least one capsule

State of the art

The invention relates to a device and a method for ejecting at least one capsule according to the preamble of the independent claims. A generic device is already known from DE 103 51 212 Al. A machine for filling and capping two-piece capsules includes a capsule ejector for axially ejecting the capsule from its respective receptacle. There are individually controllable, with respect to a pivot axis pivotable guide flaps provided, each associated with a capsule receptacle. These each comprise two guideways for the respectively associated capsule. The ejected capsule is placed either on one or the other guideway, depending on whether it is a proper or defective capsule. This will separate proper from faulty capsules.

However, this device is relatively expensive. It is therefore an object of the present invention to provide apparatus and methods which allow in a simple manner an individual capsule ejection. This object is solved by the features of the independent claims.

Disclosure of the invention

Advantages of the invention

The device according to the invention and the method for ejecting at least one capsule, on the other hand, has the advantage that the Shock can be controlled individually and independently. This makes it possible, in the case of a faulty capsule to eject this individually. By specifically influencing the movement of the ejection means ejecting, in particular, a defective capsule, subsequent sorting devices can be dispensed with. According to the invention, only the

Discharge means moves upward, which should lead to an ejection of the respective capsule. In a subsequent station then all remaining capsules can be ejected. The resulting device is of relatively simple construction, since a corresponding drive construction has to be provided for moving the ejection means anyway. There are still only individual control means, for example in the form of pneumatic cylinders to provide individually for each ejection means, which ensure that, depending on the desired capsule ejection, the corresponding ejection means are moved together with the carriage in the ejection direction.

In an expedient development it is provided that the drive control means comprise a carriage which is movable in the ejection direction. The respective ejection means can be moved in the ejection direction via this slide, depending on which ejection means the associated capsule is to eject individually or not. This simplifies the drive construction, since only a single part must be set in motion.

In an expedient refinement, it is provided that the drive control means bring the respective ejection means into contact with the carriage such that this ejection means can be moved together with the carriage in the ejection direction. According to the invention, the drive control means are thus arranged on the carriage, whereby a space-saving construction is made possible. The drive control means can now act directly on the ejection means, which are preferably guided in the carriage.

In an expedient development, it is provided that cylinders, in particular pneumatic cylinders, are used as the control means. These are characterized by a simple controllability. Further expedient developments emerge from further dependent claims and from the description.

drawing

An embodiment is shown in the drawing and will be described in more detail below.

It show the

FIG. 1 is a schematic plan view of a capsule filling and

Closing machine in which the device is used for ejecting at least one capsule,

FIG. 2 shows a perspective view of the essential components of an ejection device,

FIG. 3 shows a sectional view of the ejection device in a position where the carriage is in the upper position, but no capsule ejection is to take place,

Figure 4 shows the ejector in the lower carriage position to prepare a capsule ejection as well

Figure 5 shows the ejection device in its ejection position.

Description of the embodiment

FIG. 1 shows a machine for filling and closing capsules 24, each consisting of a lower capsule part and a capsule upper part.

As a capsule conveying device, the machine comprises a conveyor wheel which rotates stepwise about a vertical axis and by means of which twelve work stations 1 to 12 can be approached. For this purpose, the capsule delivery device comprises twelve holders 22 in which, for example, five receptacles for one capsule 24 each are formed. The individual workstations 1 to 12 of the machine are included - A -

the filling of the capsule 24 different tasks. Thus, for example, the assembled capsules 24 are sorted at the workstation 1 and introduced into the receptacle of the holder 22. After a rotation of the feed wheel to the workstation 3, the capsules 24 are released there, that is, the capsule shell is separated from the capsule base. Also be in the workstation

3 tested the capsule tops of the capsules used in the holders 24 on their quality. When starting the workstation 5 through the holder 22, the capsules 24 are filled by a powder filling station. After filling the capsule bases, the capsules in the work station 8 are closed again. In the workstation 9, the capsules 24 are weighed. It is checked whether

Capsules 24 were filled with sufficient powder. From this weighing it is decided whether it is a properly or incorrectly filled capsule 24. Faulty filled capsules 24 are ejected in the subsequent work station 10 by the corresponding ejection device, which will be described in more detail below. In the workstation 11, all proper capsules 24 remaining in the holder 22 are ejected, which are transferred, for example, to a subsequent packaging device such as a blister machine. In the workstation 12, a cleaning of the holder 22, for example by blowing off.

The device for ejecting at least one capsule 24 will be described in more detail below with reference to FIGS. 2 to 5. This device consists of a carriage 16 which can be moved up and down in the ejection direction. In the carriage 16 as many ejection means 18 are guided as receptacles 25 are provided in the holder 22 for the corresponding capsules 24. To the

Carriage 16 are pneumatic cylinders 20, arranged as an example of drive control means. Capsules 24 ejected by ejection means 18 are discharged via a capsule groove 26.

In Figures 3 to 5, the mechanism is shown in more detail, the individual

Control of the ejection means 18 allows. The carriage 16 comprises, corresponding to the number of the ejection means 18, recesses 17. These recesses 17 are in this case dimensioned so that during an up and down movement of the carriage 16, the ejection means 18 are not moved. Furthermore, on the carriage 16, corresponding to the number of the ejection means 18, pneumatic cylinders 20 attached. Respective control piston 23 of the pneumatic cylinder 20 engage via respective transverse bores in the direction of the respective recess 17. Above the pneumatic cylinder 20, depending on the number of the respective ejection means 18, corresponding sensors 27 are arranged, which serve the position monitoring and control of the ejection means 18. At the end of the ejection means 18, a part widened with a driving surface 19, which is slightly widened in relation to the plunger, is arranged. This driving surface 19 cooperates with a shoulder 21 in the recess 17, so that the ejection means 18 can not leave the carriage 16 upwards. The device for ejecting at least one capsule 24 has a table top 30. With this table top 30, a lower guide 28 and an upper guide 32 are positively connected. The two guides 28,32 are used to guide the ejection means 18. The respective ejection means 18 pass through a bore to the corresponding capsule receptacle 25 in the holder 22. In the ejection position, the holder 22 is below its deflection 34, the ejected capsule 24 in Direction to the capsule trough 26 deflects.

The ejector now operates in the following manner. The movement of the plurality of ejection means 18 is controlled by a single carriage 16. Depending on the stroke of the feed wheel, the carriage 16 moves once per cycle in the ejection direction. From Figure 3 it can be seen that the carriage 16 is in the upper position. However, the ejection means 18 shown is in its lower position. That is, the capsule 24 associated with the ejection means 18 should not be ejected. In this case, the movement of the carriage 16 from below in the ejection direction does not affect the movement of the ejection means 18, that is, the ejection means 18 remains in its position. The recess 17 is designed so that the movement of the carriage 16 does not bring a movement of the corresponding ejection means 18 with it.

In the following cycle, the carriage 16 is again moved to the lower position, as shown in Figure 4. In the lower position, the driving surface 19 of the ejection means 18 bears against the shoulder 21 of the recess 17 in the carriage 16. Towards the bottom, the driving surface 19 extends so far until a lateral opening of the control piston 23 on the underside of the driving surface 19th can act. Depending on whether the respective ejection means 18 should now lead to a capsule ejection or not, the corresponding control piston 23 are extended in the direction of the recess 17. Such ejection means 18, which should not lead to a capsule ejection, are not brought into connection with the associated control piston 23. In Figure 4, the driving position of the ejection means 18 is shown, that is, the control piston 23 of the pneumatic cylinder 20 cooperates with the underside of the driving surface 19, so that with a corresponding upward movement of the carriage 16 together with pneumatic cylinder 20 and control piston 23, the corresponding ejection means 18 upwards is taken. It is essential that the different

Discharge means 18 can be controlled independently by correspondingly associated control piston 23 in the sense of movement entrainment. This makes it possible for individual capsules 24 to be ejected in a targeted manner to be detected by the ejection movement of the ejection means 18 moved correspondingly by the carriage 16. After the appropriate assumption of the driving position of the control piston 23 of the carriage 16 is now moved in the ejection direction. The associated sensors 27 check the achievement of the upper position of the respective ejection means 18. The sensors 27 are arranged fixedly relative to the carriage 16. They are designed as proximity sensors. The ejection means 18 are moved so far in the ejection direction that the capsule 24 is thrown out of the capsule receptacle 25 of the holder 22 and is deflected by the deflection 34 towards the capsule channel 26.

There are now different concepts conceivable as the control piston 23 and thus the ejection means 18 are individually controlled. The aim of the device is in any case to separate faulty filled capsules 24 of proper capsules 24. For this purpose, in a first variant in the station 10, the defective capsules 24 can be ejected in a targeted manner. The weighing device 13 gives the corresponding information to a controller, in which the capsules 24 are a proper or faulty. Now in the

Station 10, the defective capsules 24 are ejected, the respective defective capsules 24 associated with ejection means 18 associated control piston 23 are moved in the direction of the recess 17. The control pistons 23 of such ejection means 18, which are arranged under proper capsules 24, on the other hand, are not moved. The carriage 16 takes only such impact means 18 in the ejection direction, which are arranged under a faulty capsule 24; the ejection means 18 under proper capsules 24 are not moved in the ejection direction. At the station 10 all defective capsules 24 located in the holder 22 are eliminated. After leaving the station 10 are thus only the proper capsules 24 in the holder 22nd

These are then removed at the station 11. Now, a targeted control of the ejection means 18 is no longer necessary, that is, all ejection means 18 can be moved into each of the capsule receptacles 25 of the holder 22, so that all still in the holder 22 capsules 24 are ejected.

In a second variant, it would also be conceivable that only the proper capsules 24 are ejected in the station 10. Thus, those control piston 23 are controlled, which are associated with the properly filled capsules 24. Faulty capsules 24 associated ejection means 18 are not moved by the carriage 16 in the ejection direction. After leaving the station 10 are according to the second variant only defective capsules 24 in the holder 22. These defective capsules 24 are completely ejected in the workstation 11. All the ejection pins in the work station 11 are moved in the off-stroke direction and convey the still defective capsules 24 out of the holder 22.

Device and method for ejecting at least one capsule are used in particular in hard gelatin capsule filling machines. Here, the capsules can be filled with powder, pellets, liquids or tablets. Other methods for determining a properly or incorrectly filled capsule 24 are conceivable. Necessary are only appropriate criteria by which a proper from a faulty capsule 24 can be distinguished.

Claims

claims

A device for ejecting at least one capsule (24), comprising at least two ejection means (18) for ejecting at least one capsule (24) from a holder (22) accommodating the capsules (24), characterized in that drive control means (16, 20, 23) are provided to move the ejection means (18) independently of one another in the ejection direction, depending on whether the capsule (24) associated with the ejection means (18) is recognized as being defective or defective.

2. Device according to one of the preceding claims, characterized in that the drive control means (16, 20, 23) comprise at least one carriage (16) which is movable in the ejection direction and with the ejection means (18) cooperate.

3. Device according to one of the preceding claims, characterized in that the drive control means (16, 20, 23) bring at least one ejection means (18) with the carriage (16) in connection, that it together with the carriage (16) in the ejection direction is movable.

4. Device according to one of the preceding claims, characterized in that the drive control means (16, 20, 23) at least one cylinder (20), preferably a pneumatic cylinder, with associated control piston (23) which acts on the corresponding ejection means (18) ,

5. Device according to one of the preceding claims, characterized in that the carriage (16) recesses (17), in which the ejection means (18) are movably guided relative to the carriage (16).

6. Device according to one of the preceding claims, characterized in that at least one control piston (23) in at least one recess (17) can be brought.

7. A method for ejecting at least one capsule, comprising at least two ejection means (18) for ejecting at least one capsule (24) from a capsule (24) receiving holder (22), characterized in that drive control means (16, 20, 23) Discharge means (18) move independently in the ejection direction depending on whether the ejection means (18) associated capsule (24) is recognized as correct or faulty.

8. Method according to the preceding claim, characterized in that for discharging at least one capsule (24) the following steps are performed: - Lowering a carriage (16) as part of the drive means, depending on which capsule (24) is to be ejected the corresponding ejection means (18) being connected to the carriage (16) so as to move the connected ejection means (18) together with the carriage (16) in the ejection direction; moving the carriage (16) with the associated ejection means (18)

Ejection direction.

9. The method according to any one of the preceding Verfahrensansprüche, characterized in that for connecting at least one ejection means (18) with the carriage (16) of the associated control piston (23) acts on this ejection means (18).