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Publication numberUS3664495 A
Publication typeGrant
Publication dateMay 23, 1972
Filing dateDec 21, 1970
Priority dateDec 21, 1970
Also published asCA930667A1, DE2102228A1
Publication numberUS 3664495 A, US 3664495A, US-A-3664495, US3664495 A, US3664495A
InventorsRichard J Graham, Ralph E Mottin, Oscar B Noren
Original AssigneeParke Davis & Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Locking capsule
US 3664495 A
Abstract
An economical locking capsule is provided having telescopically joinable cap and body parts adapted to be joined together in a prelocking position and optionally in a more fully joined position. The capsule, for packaging of medicaments and the like, is produced by the dip-molding technic on conventional automatic machinery and can be printed, filled, etc., using standard equipment.
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United States Patent Graham et al. [4 1 May 23, 1972 54 LOCKING CAPSULE 3,258,115 6/1966 Kath ..206/63.2 R [72] Inventors: Richard L G I Gmsse Mme; Ralph 3,285,408 11/1966 Carnagh1etal.... ....206/63.2 R E. Mom Grosse Poime Pam; o 3,399,803 9/l968 Oglevee etal ..220/60R 3,584,759 6/1971 Lorincz ..22o/42 A Noren, Grosse Pointe Farms, all of Mich.

Primary Examiner-Allen N. Knowles Attorney-Robert R. Adams, David B. Ehrlinger, George M. Richards and Edward J. Gall [57] ABSTRACT An economical locking capsule is provided having telescopically joinable cap and body parts adapted to be joined together in a prelocking position and optionally in a more fully joined position. The capsule, for packaging of medicaments and the like, is produced by the dip-molding technic on conventional automatic machinery and can be printed, filled, etc., using standard equipment.

1 Claim, 10 Drawing Figures PATE'N TEBMAY 23 m2 RICHARD J. GRAHAM RALPH E. MOTTIN OSCAR B. NOREN INVENTORS A TTY.

SUMMARY ANDDETAILED DESCRIPTION Thisinvention relates to hard shell locking capsules of the type having a cap part and a bodv part adapted to be telescopically joined together to provide a container for substances such as pharmaceutical preparations intended 'for oral administration. More particularly, the invention relates to cap sules of the kind described which can be manufactured, printed, filled and joined on modern high-production machinery and can be locked in the closed position, as desired, in a partial lock or pre-lock, and optionally in a more completely joined lock.

The conventional locking pharmaceutical capsules consist of a tubular or cvlindrical cap part closed at one end with the opposite end open to telescopically receive a closely fitting body part of like conformation having contacting inner surfaces which provide a locking action to prevent separation of the cap and body parts. In general, the known types of locking capsulesare constructed to provide both a temporary lock (sometimes referred to as a semi-lock or pre-lock) when partly. joined and a more secure lock .when more fully joined.

One such type of capsule, for example, is known from British Pat. specification No. 1,108,629 and Italian Pat. No. 789,324. The prior art locking capsules have in general been satisfactorv but some types have occasionally malfunctionedor failed from time to time in finishing, distribution, etc. In particular, the cap and body parts have sometimes tended to "pop apart when joined on the production line; also, empty capsules in the pre-lock position prior to filling or subsequentl as in shipment to the customer, have sometimes pulled apart especially in a case where the cap has been insufi'iciently advanced onto the bodv. Also, capsules in the fully locked position have sometimes been known to pull apart and become separated due to severe vibration. Capsules of the friction lock type, that is capsules locked with the capsule walls under distortion,

have been known to crack and fail, especiallv under excessive drying conditions as when filled with hygroscopic powders or other desiccating substances. The failures are not uncommon, especially during the printing operation using equipment which calls for precise length control of the pre-lock capsule.v Separation failures are also likely to occur during the filling:

steps, particularly where, as in standard machinery, the capsules are delivered from the supplv hopper by oscillatory movements tending to cause the capsule parts to separate. A separated part undesirably can cause the magazine tube to be blocked, or a free cap, for instance, can seat on' a joined capsule bodv and form a double-cap" which may jam the rectifying mechanism. Also, the loose part can crowd the filling ring chamber so that the intended body part does not seat properly in the filling ring. As will be appreciated, each malfunction constitutes an economic loss whether of production time, capsule material, medicament, etc.

It is therefore an object of the present invention to provide a locking capsule of a novel type having an improved pre-lock construction for optimum performance during finishing, dis tribution, etc.

It is also an object of the invention to provide an improved capsule having cooperating elements for the partial and complete locking of the body and cap parts.

Still another object of the invention is to provide an improved capsule having pre-lock means assuring the partial joining of the capsule pans in a constant pre-determined length.

Yet another object of the invention is to provide pre-lock means for capsules which prevents or minimizes the occurrence of popping apart of the capsule parts as they are being assembled.

Other objects, features and advantages of the invention will be seen in the following specification with reference to the accompanying drawings in which:

FIG. 1 is a side view of an assembled capsule according to the invention;

FIG. 2 is a section taken on axis line-2'2 of FIG. I, of the upper part of a capsule of the invention in a full lock position;

FIG. 3 is a similar view in the pre-locked or partly closed position;

FIG. 4 is a transverse section of a capsule taken on line 44 of FIG. 1;

FIG. 5 is a plan view in section of the indented pre-lock contour of the cap mold pin, the pin contour being covered over with a capsule shell coating;

FIG. 5a is a section of the pre-lock position of a capsule shown in contact according to the invention with the capsule bodv;

FIG. 6 is an elevational view of the contour represented in FIG. 5; and

FIGS. 7a, 7b and 7c are sectional views illustrating the stepwisev migration of the capsule liquid onto the shaped contours of a capsule mold pin as the pin is dipped increasinglv deeper into the capsule liquid.

Referring to FIG. 1, the capsule of the invention 10 includes a cap 11 and a body 12 with closed ends 13 and l4, the parts being readily molded, stripped, etc., on standard capsule-making machinery and assembled easily, as desired, in either locked or semi-locked position. The cap 11 includes a cap end 18 with a suitable opening and a pair of capsule indents 24 (FIGS. 2, 3 and 4).

The cap 1 l, in greater detail as seen in FIGS. 2 and 3, has an inner wall 16 and an outer wall 17. The closed end 13 is preferably rounded or hemispherical but the shape is not critical. If desired, the cap end can have other shapes. The inner cap wall 16 proceeding from the open end 18 to the line 23, which is the shoulder line, has a slight narrowing diametral taper of the order of 0.010 inch per inch exclusive of indent means 24. In FIG. 2 the cap and body parts are shown in the fully locked position whereas in FIG. 3 the cap and body parts are shown in partly closed or pre-locked position. The body has a standard tapered side wall and is generally conventional. In FIG. 2, as indicated, the cap and bodv have been pressed together from the partly closed pre-locked or semi-locked position into the fully closed, locked position. In this position the open body end has advanced into the cap 'to a point near or preferably just bevond the shoulder line 23. The bodv like the cap is tapered in the same degree and in the direction from its open end. to its closed end. The body taper and the body dimensions are such as to provide an ample entrance of the body into the cap. The body taper and the body dimensions in relation to the taper and dimensions of the cap also are such as to provide an elastic frictional fit in the pre-locked posmon shown in FIG. 3; the fit between adjacent wall surfaces of the cap and body advantageously permits the passage of air particularly around the peripherv of the fiat and along a gap 24c at the slopes 24b. By contrast the body wall is in close conformity with the indent flat 24a and edges 24d (FIGS. 5a and 6). The pre-locked fit in the area of the indent 24 is a friction fit wherein the capsule parts are elastically distorted-the cap undergoing "ovalling and the body dimpling"making for increased passage means or air vent means so as to permit the escape of compressed air contained within the capsule occasioned, for example, by the sudden joining-of the body and cap parts into locked position. Thus, the release of air advantageously avoids any tendency of the cap and body to pop apart. The mentioned construction unexpectedly provides performance characteristics (in joining, separation, printing, filling, etc.) which are wholly acceptable by comparison with any prior art capsule heretofore produced. Thus, there is little tendency under the conditions obtaining in capsule manufacture for the pre-locked capsule parts in accordance with the invention to become separated inadvertently or to become joined together farther than intended.

avoid the excessive formation of air bubbles in the freshly formed capsule wall. Thus, the slopes 24b in relation to the flat 24a (shown in FIG. 5 as angle A and angle B) should form an angle of about 8l 2. An angle of about 10 is preferred whereas slope angles substantially more than 12 are associated with the formation of excessive numbers of bubbles in the capsule wall portion adhering to the surfaces of the indent slopes and adjacent portions of the indent flat 24a. FIGS. 7a, 7b and 7c illustrate how the capsule making fluid moves in relation to an excessively angular pin contour as the pin 25 is being dipped into the capsule liquid. In FIG. 7a the capsule liquid 26 is rising upward along the pin and is entering the concavity of the pin mold indent. In FIG. 7b the liquid has moved farther past the corner formed by the indent slope and the indent flat without actuallv wetting the corner so that the air bubble 27 is formed. In FIG. 70 the capsule liquid 26 has moved higher across the capsule indent contour without contacting the innermost corner portions of the contour thereby causing air bubbles 27 in these portions. Subsequently in the molding process while the pin bars are being transported, rotated, subjected to the drying cycle, etc., the air bubbles formed are believed to merge with the liquid film 26 and to migrate in the film until the film sets up and solidifies, whereu pen the air bubbles 27 are physically trapped within the capsule wall and particularly with the wall of the capsule indent 24. Such air bubbles tend to cause an undesirable weakness of the capsule. In extreme cases, bubble formation results in formation of holes in the capsule.

The capsule indents 24 of the capsules of the invention must also have a relatively long flat 24a between the indent slopes 24b. In general, a longer flat is associated with fewer, or smaller, air bubbles. It is found that in this regard the length of the indent flat separating slopes 24b should be about 0.030 to 0.040 inch and preferably about 0.035 inch; the width is of the same order and is not particularly critical. The diametral spacing of the capsule indents should be such that the open end of the body can enter into the cap to the pre-locking position and yet the cap and body at this position mutually engage in a frictional fit. in this regard the spacing should preferably be less than the outside diameter of the open end of the bodv by an approximate distance (designated herein as constriction") differing according to capsule size, as follows:

Constriction, inches Capsule size Capsule size Indent Location, inches Where the indents are located substantially nearer the closed end, the pre-locking engagement is significantly less flexible so that the capability of the capsule parts to accommodate to variable characteristics such as capsule length, wall thickness, etc., is noticeably diminished. On the other hand, where the indents are located nearer the open end, the pre-lock tends to be weaker and therefore less effective. I

While gelatin of pharmaceutical grade is a preferred material for the manufacture of the capsules of the invention, other materials having like properties can be substituted in whole or in part for gelatin. It is conventional for capsule mold pins to be made of high-grade stainless steel, and it will be understood that the contour of the mold pins used for making the capsule parts of the invention can be suitably formed by any conventional means such as milling, grinding or the like. It is a significant feature of the invention that the configuration of the indents is such as to require relatively less forming of the standard capsule mold pins. In other words, relatively little metal needs to be taken from the pin to provide the indent grooves and yet the locking action of the resulting molded capsule parts is entirely satisfactor It will also be understood that the dip-molding process confers the contour of the pin precisely to the inner surface of the molded capsule part. In this respect the capsule cap parts of the invention which include the capsule indent 24 can be readily stripped from the mold pins without difficulty or damage to the capsule part.

While the invention in locking capsules has been described in detail in the foregoing specification, considerable variation in such detail can be made, as will be appreciated by those skilled in the art, without departing from the spirit of the invention.

We claim:

1. A hard shell pharmaceutical locking capsule having cylindrical, telescopically joinable, coaxial ,cap and body parts each having a side wall, an open end and a closed end, the cap and bodv being adapted to be mutually joined in a first pre-locking position and optionally in another more completely joined position,

the cap and body side walls each having an inner surface and an outer surface and the cap side wall also having a pair of diametrically opposed integral indents extending radially inwardly from the sides of the wall,

the profile of each indent including two indent slopes separated at a distance of about 0.030 to 0.040 inch by an indent flat, the slopes joining the flat at an angle of about 8-l2,

the diametral spacing of the indents being less than the outside diameter of the open end of the body bv an approximate constriction distance differing according to capsule size, as set forth below, such that the body can enter into the cap to the pre-locking position and yet the cap and body at this position mutually engage in an elastic frictional fit,

the center line of the indents being located axially from the inner surface of the closed end of the cap at a distance permitting optimum wall flexibility and pre-locking strength, the location differing according to capsule size approximately as follows:

Capsule Size constriction, lndent Location,

inches inches

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US691687 *Mar 22, 1901Jan 21, 1902Robert Burns WilsonCapsule.
US3258115 *May 12, 1965Jun 28, 1966Scherer Corp R PTwo-piece hard gelatin capsule
US3285408 *Oct 16, 1964Nov 15, 1966Lilly Co EliCapsule with integral locking band
US3399803 *Oct 11, 1966Sep 3, 1968Parke Davis & CoSelf-locking medicament capsule
US3584759 *Jun 19, 1969Jun 15, 1971Scherer Ltd G CSeparation-resistant capsule
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3823843 *Oct 26, 1972Jul 16, 1974Lilly Co EliLocking capsule
US4040536 *May 5, 1975Aug 9, 1977R. P. Scherer CorporationLocking hard gelatin capsule
US4076848 *Mar 18, 1976Feb 28, 1978Limur Eleanor DeEncapsulated pulverized dehydrated fruit and vegetable product
US4196564 *May 15, 1978Apr 8, 1980S.A. Capsugel A.G.Method of manufacturing a joined capsule filled with viscous material
US4247006 *Jul 16, 1979Jan 27, 1981Capsugel AgCapsule body, in particular for use with a joined capsule for a pharmaceutical preparation, and method of and apparatus for producing it
US4738724 *Sep 19, 1986Apr 19, 1988Warner-Lambert CompanyMethod for forming pharmaceutical capsules from starch compositions
US4738817 *Sep 19, 1986Apr 19, 1988Warner-Lambert CompanyMethod for forming pharmaceutical capsules from hydrophilic polymers
US4822618 *May 13, 1987Apr 18, 1989Lilly Industries LimitedWith annular grooves; reduced ovality
US4893721 *Nov 21, 1984Jan 16, 1990Warner-Lambert CompanyTamper-proof capsules
US5119936 *Apr 15, 1991Jun 9, 1992Johnson Level And Tool Mfg. Co., Inc.Structure and method for protectively encasing a level
US5632971 *Jan 19, 1996May 27, 1997Su Heung Capsule Co., Ltd.Empty medicinal and food capsule
US5698155 *Jan 24, 1995Dec 16, 1997Gs Technologies, Inc.Method for the manufacture of pharmaceutical cellulose capsules
US5750157 *Oct 10, 1996May 12, 1998Gs Technologies, Inc.Apparatus for the manufacture of pharmaceutical cellulose capsules
US5756036 *Jun 5, 1995May 26, 1998Gs Technologies, Inc.Method for the manufacture of pharmaceutical cellulose capsules
US5769267 *Nov 9, 1995Jun 23, 1998Warner-Lambert CompanyContainer
US8061006 *Jul 25, 2002Nov 22, 2011Powderject Research LimitedParticle cassette, method and kit therefor
US8298575Jan 8, 2008Oct 30, 2012Boehringer Ingelheim Pharma Gmbh & Co. Kgconsist of water-insoluble hydrophobic synthetic materials which do not significantly affect the pharmaceutical quality of the contents themselves, but improve usability of filled capsules with regard to function, longevity, and/or the geographic location of their use
US8377471Aug 3, 2006Feb 19, 2013Capsugel Belgium NvContainer
US8662076 *Jan 6, 2006Mar 4, 2014Boehringer Ingelheim Pharma Gmbh & Co. KgTwo-part capsule with pre-closure for housing pharmaceutical preparations for powder inhalers
EP0781540A2May 29, 1992Jul 2, 1997Gs Technologies, Inc.Method and apparatus for manufacturing pharmaceutical cellulose capsules - drying the capsule
EP0781541A2May 29, 1992Jul 2, 1997Gs Technologies, Inc.Method and apparatus for manufacturing pharmaceutical cellulose capsules - sizing the capsule
EP0781542A2May 29, 1992Jul 2, 1997Gs Technologies, Inc.Method and apparatus for manufacturing pharmaceutical cellulose capsules - fully gelatinizing
EP0784969A2May 29, 1992Jul 23, 1997Gs Technologies, Inc.Method and apparatus for manufacturing pharmaceutical cellulose capsules - removing capsule from pin
Classifications
U.S. Classification220/8, 220/DIG.340
International ClassificationA61J3/07
Cooperative ClassificationY10S220/34, A61J3/071
European ClassificationA61J3/07B