US3913301A - Apparatus for threading closures onto bottles and similar containers - Google Patents

Apparatus for threading closures onto bottles and similar containers Download PDF

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Publication number
US3913301A
US3913301A US432627A US43262774A US3913301A US 3913301 A US3913301 A US 3913301A US 432627 A US432627 A US 432627A US 43262774 A US43262774 A US 43262774A US 3913301 A US3913301 A US 3913301A
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United States
Prior art keywords
torque
transmitting elements
combination
rotation
coupling
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Expired - Lifetime
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US432627A
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English (en)
Inventor
Dieter Keller
Rudolf Kuhn
Willi Dotzauer
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HOHENZOLLERN HUETTENVERWALT
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HOHENZOLLERN HUETTENVERWALT
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67BAPPLYING CLOSURE MEMBERS TO BOTTLES JARS, OR SIMILAR CONTAINERS; OPENING CLOSED CONTAINERS
    • B67B3/00Closing bottles, jars or similar containers by applying caps
    • B67B3/20Closing bottles, jars or similar containers by applying caps by applying and rotating preformed threaded caps
    • B67B3/2073Closing bottles, jars or similar containers by applying caps by applying and rotating preformed threaded caps comprising torque limiting means

Definitions

  • the present invention relates to an apparatus for threading closures onto bottles and similar containers.
  • closures which is often preferred because it does not involve breakage of the bottle when it is applied to the same, is a pre-fabricated screw-on closure, frequently of synthetic plastic material, which must be threaded onto the bottle or similar container after the latter has been filled.
  • An additional object of the invention is to provide such an improved apparatus which permits the torque limit, that is the limit which must not be exceeded to assure that the closure is threaded onto the container tightly but not too tightly, will be precisely maintained.
  • one feature of the invention resides in an apparatus for threading closures onto bottles and similar containers, in a combination which comprises a rotary shaft and rotary closureengaging means for entrainingly engaging a closure to be threaded onto a container.
  • Coupling means is provided for coupling the engaging means with the shaft. It comprises a first coupling member connected for joint rotation with the shaft, and a second coupling member connected for joint rotation with the engaging means.
  • a plurality of torque-transmitting elements are provided on one of the members and so yieldably engage a circumferential surface of the other of the members that in the event torque exceeds a predetermined limit, a small fraction of the plurality of torquetransmitting elements willy'ieldingly disengage from the circumferential surface.
  • Thetorque-transmitting members could be in form of roller bodies, which are currently preferred, or in form of sliding bodies.
  • roller bodies which are currently preferred, or in form of sliding bodies.
  • sliding bodies For the sake of convenience, reference will hereafter be made to roller bodies although it should be understood that this term includes sliding bodies also.
  • slippage of the coupling upon exceeding of the predetermined torque limit prevents the torque from dropping to zero, but instead reduces the torque only by a relatively small fraction which essentially has the same relationship to the overall torque as the small fraction of disengaged roller bodies to the total number of the plurality of roller bodies.
  • the number of roller bodies involved should be as large as possible, and the number of roller bodies which at any one time yieldingly disengage should be as small as possible. It is advantageous if only a single roller body at a time will become disengaged.
  • the torque-transmitting surface portions which are engaged by the roller bodies can be in form of a flat sawtooth-shaped profile the distribution of which circumferentially of the axis of rotation will be different from the distribution of the roller bodies.
  • the torquetransmitting surface can be recessed or can be projecting, the only important consideration here being that if the roller bodies are arranged with uniform distribution, the distribution of the sawtooth-shaped profile must be uneven, or vice versa.
  • the torque-transmitting surface portions of that member of the coupling which is not provided with the roller bodies are configurated as a gently inclined ramp or groove, which at its highest point forms an abrupt drop back to the level of its lowest point.
  • the drop can be so abrupt that even if the roller bodies are closely adjacent, only one of them can at any time be located at the highest point where it does not transmit any torque. All other roller bodies are located on the gently inclined surface of the ramp or groove and thus transmit torque. If a relatively strong torque is to be transmitted, then the spring force which urges the roller bodies into contact with the torquetransmitting surface portion, must be appropriately great.
  • the torque transmission behavior can also be regulated by appropriate selection of the spring constants. It is advantageous if each roller body is provided with a separate spring which acts only upon it alone.
  • One of the members of the coupling can be in form of a flat cylindrical disc which is formed at its circumference with the ramp or groove or sawtooth-shaped profile.
  • the other coupling member must surround the first-mentioned one and is preferably provided with radial bores in which roller bodies are located which are urged inwardly against the firstmentioned coupling member by appropriate springs.
  • roller bodies are mounted in their associated coupling member shiftable in axial direction, and the ramp or groove is inclined also in axial direction, as will be discussed subsequently.
  • roller bodies are either spherical members, which are currently preferred, or they are cylindrical rollers or conical rollers.
  • the spring force acting upon the respective roller bodies can be varied, to thereby be able to increase or decrease the torque limit at which the coupling will experience a torque drop.
  • the supports against which the springs bear may be adjustable to permit such variation.
  • the ramp or groove has a gentle but uniform inclination. This reduces non-uniformity of the transmitted torque when the coupling slips, and also facilitates the manufacture of the components.
  • the ramp or groove advantageously extends over almost the entire circumference of the coupling, so that only a very short region exists in which preferably only a single roller body at a time will be in a position in which itwill not transmit torque.
  • roller bodies are advantageously evenly distributed over the circumference of that coupling member on which they are provided.
  • the supports for the springs may be pins which are shiftable and have free ends that are engaged by a member that can be threadedly adjusted, to thereby displace the pins inwardly or outwardly and compress or relax the springs.
  • the coupling according to the present invention can be provided in the spindle which carries the rotary closure-engaging device. However, it is currently preferred that it either be located in the closure-engaging device itself, or directly between the same and the spindle. The closer the coupling is located to the closure device, the smaller the inertial forces of the component or components which must be rotated by the coupling and which act upon the latter.
  • a rotary closure-engaging device provided with a receiver 1 which receives a screw-type closure, for instance of synthetic plastic material or the like, that has not been shown but will be understood to be accommodated in the recess 3 the lower end of which conically diverges at 4.
  • a screw-type closure for instance of synthetic plastic material or the like
  • the inner diameter of the recess 3 is slightly larger than the maximum outer diameter of the closure.
  • abutment member 5 mounted on a bolt 6 which is axially shiftably mounted in a central bore 7 of the receiver 1.
  • a threaded pin 8 is provided in a transverse bore of the receiver 1 and extends into an upwardly and downwardly closed axial slot 9 of the bolt 6, thus preventing a turning or fallingdown of the same and of the member 5.
  • the outer diameter of the member 5 is slightly smaller than the inner diameter of the recess 3.
  • a spring 10 permanently urges the member 5 to its lowest position which is illustrated in FIG. 1, so that the member 5 urges the closure (not shown) against the neck of the bottle in overlying relationship with the opening of the bottle.
  • the downward movement of the member 5 is delimited by engagement of the upper end of the slot 9 with the pin 8, and the upward movement is limited by engagement with the pin of the other end of the slot 9. It is preferable if the member 5 is a hardened steel disc which is removably connected to the bolt 6.
  • the circumferential wall of the receiver 1 is provided with three radial slots in which three engaging members 12 are located, which are preferably of hardened steel also. As shown in FIG. 1, these members 12 each extend inwardly into the recess 3 by approximately 1 mm so that they can engage the closure. Each of the members l2 fills the associated radial slot almost completely. Adjacent the upper ends, the members 12 are provided on their radially outer edges with a kerf which is aligned with an annular groove formed in the outer surface of the receiver 1 and in which a spring ring 13 is located. Since the spring ring also extends through the kerfs of the members 12, it defines for the same a pivot axis.
  • the radially inner upper end of the members 12 is mounted on a radius the center of which coincides at least substantially with the center of the spring ring 13 and which is equal to the width of the members 12, so that the latter can pivot about the center of the spring ring 13 but cannot fall out of their slots in normal use.
  • the members 12 extend upwardly beyond the spring ring 13 by a distance which is smaller than their width, so that they can be pivoted far enough in outward direction to be removed or to be reinstalled, which facilitates their removal for inspection and for replacement. Also, it makes it possible to insert differently configurated members which can then act upon closures with differently formed shoulders.
  • the receiver l Adjacent the lower ends of the members 12 the receiver l is formed with the two further annular grooves which are also so located as to coincide with respective kerfs formed in the members 12. Each of these grooves accommodates an elastic ring 14 of rubber or synthetic plastic material, or else a fine helical spring. The purpose of the rings 14 is to maintain the members 12 in the position shown in FIG. 1.
  • a coupling is provided which limits the torque transmitted by the receiver 1 upon the non-illustrated closure, in that when a maximum predetermined torque limit is exceeded, it begins to slip but, in accordance with the present invention, continues to transmit torque at a level which is only slightly decreased.
  • FIG. 1 shows the coupling is provided with a coupling ring 16 which is mounted by means of a screw 15 on a portion of the receiver 1 and in this embodiment constitutes the driven coupling member.
  • the upper side of the coupling ring 16 is formed with a uniformly inclined groove 16', that is a groove the bottom wall of which is uniformly inclined upwardly in the direction of rotation which is indicated by the arrow in FIG. 2.
  • Torque-transmitting members in form of spherical elements 17 engage in this groove 16' which extends along an essentially helical line 17.
  • FIGS. 4 and 5 show that the torque-transmitting surface portion 16a of the member 16a in another embodiment may also be configurated as a gently inclined ramp which at its highest point forms an abrupt drop back to the level of its lowest point.
  • Each of the members 17 is accommodated in one of a plurality of axial bores of the member 21.
  • the bores 20 are uniformly and concentrically distributed over the circumference of the member 21 and the members 17 are each axially shiftable in the associated bore 20.
  • Springs 19 are provided in the bores 20 and permanently urge the members 17 via pressure members 18 against the bottom of the groove 16', so that by appropriate turning of the member 21 the members 17 will transmit torque to the member 16 and cause the same torotate, thus rotating the receiver 1.
  • the drawing also shows in FIG. 3 that the members 17 and 18 could be'replaced by axially shiftable pins 17a located in the respective bores 20, having free end faces which are accommodated to the cross-sectional configuration of the groove 16' and are slidably received in the latter.
  • roller bodies are currently preferred.
  • the members 17 begin to travel in the groove 16', but continue to transmit torque. Only in the region 39 will the transmission of torque be interrupted, and then only for the single member 17 (or, if the region 39 is long enough, the small number of members 17) which can at any one time be located in the region 39.
  • the member 21 is indirectly but fixedly connected with a rotary spindle or shaft which is driven in appropriate manner but not illustrated since it is conventional.
  • the receiver 1 is tumably journalled on the member 21 by means of two ball bearings 23.
  • a screw 24 and a ring 25 prevent it from falling downwardly out of the member 21 which latter is concentrically mounted on a member 26 by means of screws 27.
  • pins 30 are axially shiftably accommodated in the bores 20 above the springs 19. These pins 30 form the abutments for the springs 19 and their outer ends contact a member 31 which can be turned and thereby be shifted in axial direction.
  • the member 31 is provided with an upwardly extending threaded portion 32 which is threaded with its external thread into an internal tap bore 33 of the member 26. When it is axially shifted by rotating, the axial position of the pins 30 is changed and thereby the springs 19 may be compressed or relaxed as required.
  • the member 31 and the portion 32 are advantageously of one piece with one another.
  • the portion 32 serves also to connect the entire receiver and coupling with the previously mentioned spindle. It is provided with a counternut Bid to hold it against the member 26.
  • a non-illustrated connecting member can-be threaded upon the upper portion of the outer thread of the portion 32, to connect the same with the'spindle.
  • FIG. 2 shows the member 16 in top plan view, to indicate the configuration of the groove 16'. It will be seen that from a starting point 36 the bottom wall of the groove 16' rises uniformly to a terminal point 37, forming a helical line. The arcuate angle included between the points 36 and 37 is approximately 350 in the embodiment shown in FIG. 2. Intermediate the point 37 and the point 36, as seen in direction of rotation, a substantially horizontal portion 3 8 is provided in the cam 17' which guides the member 1 7, from which portion 38 the cam 17 drops abruptly at 39 to return to the starting point 36. Given the dimensions shown in FIG. 2, twelve of the members 17 may for instance be provided along the cam 17, being uniformly distributed over the circumference of the member 16.
  • the latter descends while being rotated-from above onto the closure which is already located on a bottle.
  • Different bottle heights can be accommodated by yielding of the member 5 against the effect of the spring 10.
  • the members 12 are initially pressed radially outwardly against the effect of the members 14, until they can snap into axial grooves which are formed in the circumference of the closure in accordance with a practice known per se.
  • the members 12 entrain the closure and thread it onto the neck of the bottle, As soon as the closure is tightly threaded onto the neck, the torque acting upon the coupling increases until the torque limit has been reached, whereupon the coupling slips and the rotation of the receiver is terminated.
  • the receiver 1 After a certain predetermined time, within which the threading-on of a closure will under all circumstances have been completed, and which can be readily and empirically determined, the receiver 1 is retracted in upward direction, or else the now closed bottle is removed in downward direction.
  • the term bottle used herein for the sake of convenience, is intended to include all such containers which can be provided with a screw top, e.g. jars, flasks and the like.
  • a combination comprising a rotary shaft; rotary closure-engaging means for entrainingly engaging a closure to be threaded onto a container; and coupling means for coupling said engaging means with said shaft, comprising a first coupling member connected for joint rotation with said shaft, a second coupling member connected for joint rotation with said engaging means, a plurality of torque transmitting elements arranged on one of said members around the axis of rotation of said rotary shaft, and a ring surface on the other of said members, said torque transmitting elements yieldably engaging said ring surface and said ring surface surrounding said axis of rotation, said torque transmitting elements being movable in directions the inclination of which relative to said axis of ro tation is common for all torque transmitting elements and said ring surface gradually rising slightly from a first level to a second level and descending steeply at only one part of its circumference from said second level to said first level, the direction of rising and descending of said ring surface being the
  • biasing means comprises biasing springs, and adjustable supports on which said biasing springs bear and which are adjustable toward and away from said surface.
  • said supports are shiftable pins each having a free end; and further comprising adjusting means engaging said free ends and operative for shifting said pins.
  • a combination comprising a rotary shaft; rotary means; and coupling means for coupling said rotary means with said shaft, comprising a first coupling member connected for joint rotation with said shaft, a second coupling member connected for joint rotation with said rotary means, a plurality of torque transmitting elements arranged on one of said members around the axis of rotation of said rotary shaft, and a ring surface on the other of said members, said torque transmitting elements yieldably engaging said ring surface and said ring surface surrounding said axis of rotation, said torque transmitting elements being movable in directions the inclination of which relative to said axis of rotation is common for all torque transmitting elements and said ring surface gradually rising slightly from a first level to a second level and descending steeply at only one part of its circumference from said second level to said first level, the direction of rising and descending of said ring surface being the direction in which said torque transmitting elements are movable.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Sealing Of Jars (AREA)
US432627A 1973-01-18 1974-01-11 Apparatus for threading closures onto bottles and similar containers Expired - Lifetime US3913301A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
AT40273A AT317025B (de) 1973-01-18 1973-01-18 Vorrichtung zum Aufschrauben von Schraubverschlüssen auf Flaschen

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4222215A (en) * 1978-04-07 1980-09-16 Kewpie Kabushiki Kaisha Screw-capping device
US4249362A (en) * 1978-03-22 1981-02-10 Metal Closures Group Limited Capping machinery
US4492068A (en) * 1979-04-25 1985-01-08 Albert Obrist Ag Closure apparatus with magnetic coupling for screwing on a plastics screw closure
US4494358A (en) * 1981-03-25 1985-01-22 Etablissements Andre Zalkin Et Cie Torsional torque controlled friction screwing head for cap installation
US4558554A (en) * 1982-10-29 1985-12-17 Metal Closures Limited Application heads for applying closures to containers
US4614077A (en) * 1985-04-17 1986-09-30 K.T. Mfg. Co., Ltd. Automatic tightening method and apparatus
US4616466A (en) * 1983-11-15 1986-10-14 Shibuya Kogyo Co., Ltd. Capping apparatus
US5054261A (en) * 1990-09-26 1991-10-08 Gilbertson Donald J Cap chucks for use with bottle capping machines
US5205788A (en) * 1989-05-12 1993-04-27 Hurth Getriebe Und Zahnraeder G.M.B.H. Torsional shock absorber with consecutive step-wise elastic resistance to relative rotation
US11741775B2 (en) * 2013-04-01 2023-08-29 Drop Water Corporation Automated electromechanical capper for removing or securing a cap on a container

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2705101A (en) * 1952-03-08 1955-03-29 Pneumatic Scale Corp Closure-applying apparatus
US2884104A (en) * 1952-01-07 1959-04-28 Erbede Sa Mechanical coupling devices
US2909047A (en) * 1956-06-29 1959-10-20 Walterscheid-Muller Bernhard Overload clutch
US3002206A (en) * 1958-08-25 1961-10-03 Tapmatic Corp Tapping attachment with adjustably yieldable clutch means
US3106274A (en) * 1960-09-13 1963-10-08 Albertson & Co Inc Rotary impact mechanism
US3185275A (en) * 1962-06-30 1965-05-25 Fisher & Ludlow Ltd Overload clutch or torque limiting device
US3319723A (en) * 1965-04-01 1967-05-16 Ingersoll Rand Co Axial piston pulse generator
US3754412A (en) * 1971-09-13 1973-08-28 Standard Register Co Slip clutch drive mechanism

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2884104A (en) * 1952-01-07 1959-04-28 Erbede Sa Mechanical coupling devices
US2705101A (en) * 1952-03-08 1955-03-29 Pneumatic Scale Corp Closure-applying apparatus
US2909047A (en) * 1956-06-29 1959-10-20 Walterscheid-Muller Bernhard Overload clutch
US3002206A (en) * 1958-08-25 1961-10-03 Tapmatic Corp Tapping attachment with adjustably yieldable clutch means
US3106274A (en) * 1960-09-13 1963-10-08 Albertson & Co Inc Rotary impact mechanism
US3185275A (en) * 1962-06-30 1965-05-25 Fisher & Ludlow Ltd Overload clutch or torque limiting device
US3319723A (en) * 1965-04-01 1967-05-16 Ingersoll Rand Co Axial piston pulse generator
US3754412A (en) * 1971-09-13 1973-08-28 Standard Register Co Slip clutch drive mechanism

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4249362A (en) * 1978-03-22 1981-02-10 Metal Closures Group Limited Capping machinery
US4222215A (en) * 1978-04-07 1980-09-16 Kewpie Kabushiki Kaisha Screw-capping device
US4492068A (en) * 1979-04-25 1985-01-08 Albert Obrist Ag Closure apparatus with magnetic coupling for screwing on a plastics screw closure
US4494358A (en) * 1981-03-25 1985-01-22 Etablissements Andre Zalkin Et Cie Torsional torque controlled friction screwing head for cap installation
US4558554A (en) * 1982-10-29 1985-12-17 Metal Closures Limited Application heads for applying closures to containers
US4616466A (en) * 1983-11-15 1986-10-14 Shibuya Kogyo Co., Ltd. Capping apparatus
US4614077A (en) * 1985-04-17 1986-09-30 K.T. Mfg. Co., Ltd. Automatic tightening method and apparatus
US5205788A (en) * 1989-05-12 1993-04-27 Hurth Getriebe Und Zahnraeder G.M.B.H. Torsional shock absorber with consecutive step-wise elastic resistance to relative rotation
US5054261A (en) * 1990-09-26 1991-10-08 Gilbertson Donald J Cap chucks for use with bottle capping machines
US11741775B2 (en) * 2013-04-01 2023-08-29 Drop Water Corporation Automated electromechanical capper for removing or securing a cap on a container

Also Published As

Publication number Publication date
DE2342872B2 (de) 1974-12-19
DE2342872C3 (de) 1975-08-07
DE2342872A1 (de) 1974-08-01
AT317025B (de) 1974-08-12

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