APPARATUS FOR AND METHOD OF SEALING CAPSULES
A method is disclosed for the sealing of hard shell capsules having coaxial body parts which overlap when telescopically joined. Also described is an apparatus to seal the capsules. The method comprises the steps of holding the capsule in a precise and upright position and injecting a known quantity of sealing fluid in the overlap of the body parts. An apparatus for performing the method is also disclosed. The apparatus comprises a sealing clamp (1, 11, 21, 31, 41, 51, 61) to hold the capsule in an upright position and means (5, 15, 25, 35, 45, 55, 65) to inject the sealing fluid in the overlap of the body parts.
Latest Patents:
This invention relates to a method of and apparatus for sealing capsules and to the capsule formed thereby.
The capsules sealed by the method and apparatus according to the present invention are hard shell, telescopically joined capsules with coaxial partly overlapping body parts. The capsules may be made of gelatin or of other materials whose properties are pharmaceutically acceptable with respect to their chemical and physical properties.
The problem to be solved with respect to such capsules as compared to other dosage forms is the fact that the coaxial body parts must be well sealed in order to avoid leaking of any content to the outside or contamination thereof. Further, tampering with the content of the capsule or the capsule as such should be evident and externally visible for safety proposes. Any technique of sealing the capsules must be suitable for large scale bulk production to reduce manufacturing time and costs and to reduce waste due to imperfections of the product.
EP 0 116 743 A1, EP 0 116 744 A1 and EP 0 180 543 A1 disclose methods and devices for sealing such capsules having hard shell coaxial cap and body parts which overlap when telescopically joined. The process employed comprises the steps of dipping batches of the capsules randomly oriented in mesh baskets or oriented with their cap parts upright into a sealing fluid making capillary action within the overlap of the cap and body parts or spraying the sealing fluid or steam thereof onto the seam of the overlap, removing the sealing fluid from the surface of the capsules by an air blower, and applying thermal energy to the capsules while conveying the baskets through a dryer. The documents disclose the use of a wide range of sealing fluids and specific temperatures and modes of application of thermal energy, the disclosure of which is incorporated herein by reference.
EP 1 072 245 A1 also discloses a method for sealing telescopically joined capsules with coaxial body parts through subsequent application of a sealing liquid by the overlapping region at the joint between a cap and a body, the removal of excess sealing liquid, and the application of thermal energy for drying purposes. This document particularly describes the steps of applying a sealing liquid including a solvent uniformly to the external edge of the gap of a capsule to be sealed to form a liquid ring around the circumference of the capsule, removing excess sealing liquid from the exterior of the capsule and drying the capsule by applying thermal energy from outside while gently tumbling and conveying the capsule on a spiral path. Spray nozzles are used for individually applying the sealing liquid. The excess solution is removed from around the capsule by vacuum suction or air jets. The disclosure of this document is incorporated herein by reference, too.
The prior systems for sealing capsules are partly imperfect as regards the quality of the seal and the controllability of the process parameters influencing the quality of the seal.
The present invention aims at providing an improved method and apparatus for sealing telescopically joined capsules with coaxial partly overlapping body parts, through subsequent application of a sealing fluid and an improvement of the fluid injection phase in order to reach the maximum volume available in the overlap of the body parts while the capsule remains free of residual liquid on its surface.
With respect to this object the present invention provides a method and an apparatus for sealing telecopically joined capsules with coaxial partly overlapping body parts as defined in the appended claims. Sealing clamps are used to seal efficiently hard capsules. Filled or empty capsules are to be oriented before the sealing operation. The sealing clamps hold each capsule in a precise and reproducible upright position. A known quantity of sealing fluid is injected in the overlap of the body parts within a well-defined volume. The excess of sealing fluid is removed from the outside of the capsule shell. Moreover the excess of sealing fluid is removed from the sealing clamp to prevent build-up of sealing fluid. Finally the capsule is released properly.
The use of spray clamps instead of bushings or any other apparatus enables to limit the zone where the sealing fluid is injected to the overlap of the body parts. The design of the sealing clamp limits the location of the sealing fluid to the interior volume of the clamp. The excess of sealing fluid remaining in the clamp is recovered through suction channels.
Using a spray clamp also forces the capsules to be cylindrical which is an advantage when using flexible polymer material to manufacture capsule. Thus the capsule diameter is homogeneous on 360°. The penetration of the sealing liquid by the capillary effect on the whole capsule circumference is favoured. An additional benefit to use a sealing clamp is to guarantee an actual vertical positioning of the capsule with regard to the location of the sealing liquid injection hole.
The spray clamp can be composed of different parts. Each part will participate to the various steps of the process. As an example, the injection of the sealing liquid can happen in one part whilst the excess of sealing fluid can be collected in a second part.
The number of main functional parts that compose the spray clamp can vary from one to six. The number of injection ports can vary from one to eight. The number of suction ports can vary from one to ten. The number of airing can vary from one to six. The positioning of those parts can be spatially arranged to obtain the desired effect. One to three liquid recovery grooves can be added to the design of clamp.
In a preferred embodiment the sealing clamp consists of two parts. These two parts are joined together to open and close the sealing clamp.
The present invention will now be described in more detail, by way of example, with reference to the accompanying drawings in which the following figures show:
The difference between the first embodiment of a sealing clamp in
A second embodiment of a sealing clamp 11 shown in
A third embodiment of a sealing clamp 21 shown in
A forth embodiment of a sealing clamp 31 shown in
A fifth embodiment of a sealing clamp 41 shown in
A sixth embodiment of a sealing clamp 51 shown in
A seventh embodiment of a sealing clamp 61 shown in
Claims
1-8. (canceled)
9. An apparatus for sealing a pharmaceutically-acceptable hard shell capsule having coaxial body parts which overlap when telescopically joined, the apparatus comprising:
- a sealing clamp to clamp and hold the capsule in an upright position; and
- means to inject a sealing fluid in the overlap of the body parts of the capsule,
- wherein the pharmaceutically-acceptable capsule concerns both chemical and physical properties.
10. The apparatus of claim 9, wherein the means to inject the sealing fluid are injection ports in the sealing clamp.
11. The apparatus of claim 9, wherein the sealing clamp comprises liquid recovery grooves.
12. The apparatus of claim 9, wherein the sealing clamp comprises an airing and a suction port.
13. The apparatus of claim 9, wherein the sealing clamp has a liquid injection groove.
Type: Application
Filed: Sep 21, 2009
Publication Date: Jan 14, 2010
Applicant:
Inventors: Dominique Nicolas Cade (Colmar), Frederic Hoehn (Eschentzwiller), Philippe Charles Peter (Urschenheim), Robert Anthony Scott (Chatton)
Application Number: 12/563,510
International Classification: B29C 45/00 (20060101);