EP3685944A1 - Tube holder for a tube filling machine - Google Patents
Tube holder for a tube filling machine Download PDFInfo
- Publication number
- EP3685944A1 EP3685944A1 EP19000588.4A EP19000588A EP3685944A1 EP 3685944 A1 EP3685944 A1 EP 3685944A1 EP 19000588 A EP19000588 A EP 19000588A EP 3685944 A1 EP3685944 A1 EP 3685944A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- tube
- clamping elements
- tube holder
- elements
- clamping
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
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- 230000005540 biological transmission Effects 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 238000003780 insertion Methods 0.000 description 1
- 230000037431 insertion Effects 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B43/00—Forming, feeding, opening or setting-up containers or receptacles in association with packaging
- B65B43/42—Feeding or positioning bags, boxes, or cartons in the distended, opened, or set-up state; Feeding preformed rigid containers, e.g. tins, capsules, glass tubes, glasses, to the packaging position; Locating containers or receptacles at the filling position; Supporting containers or receptacles during the filling operation
- B65B43/54—Means for supporting containers or receptacles during the filling operation
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B3/00—Packaging plastic material, semiliquids, liquids or mixed solids and liquids, in individual containers or receptacles, e.g. bags, sacks, boxes, cartons, cans, or jars
- B65B3/04—Methods of, or means for, filling the material into the containers or receptacles
- B65B3/16—Methods of, or means for, filling the material into the containers or receptacles for filling collapsible tubes
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B35/00—Supplying, feeding, arranging or orientating articles to be packaged
- B65B35/10—Feeding, e.g. conveying, single articles
- B65B35/16—Feeding, e.g. conveying, single articles by grippers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B59/00—Arrangements to enable machines to handle articles of different sizes, to produce packages of different sizes, to vary the contents of packages, to handle different types of packaging material, or to give access for cleaning or maintenance purposes
- B65B59/005—Adjustable conveying means
Definitions
- the invention relates to a tube holder for a tube filling machine, with a housing which has an upwardly opening tube receptacle into which a tube can be inserted with one end region, wherein a plurality of clamping elements are arranged in the tube receptacle, each with a clamping surface with an outer wall of the tube Tube can be brought into contact and with which, under the action of at least one spring element, a clamping force acting radially from the outside on the inserted tube can be applied, the clamping elements each being pivotally mounted in a pivot bearing about a horizontally extending pivot axis, and wherein the clamping elements extend over the circumference of the tube Tube receptacles are distributed and form a 1st group of clamping elements.
- a tube filling machine usually has an endlessly rotating conveying device which carries a plurality of receptacles, in each of which a tube holder is inserted.
- a tube with its head or cap section can be inserted into each tube holder from above, the tube passes through the individual workstations of the tube filling machine together with the tube holder.
- the tube is lowered back into the holder with its tube holder.
- the filled and closed tube is removed from the tube holder and transported away.
- Tube holders are known in various configurations.
- a tube holder has a housing with an upwardly opening tube receptacle into which a tube, which is preferably made of plastic or metal, is inserted with its head or cap section.
- Several clamping elements are arranged in the tube receptacle, which are distributed over the circumference of the tube wall and are each under the action of a spring element.
- Each clamping element is adjustable perpendicular to the longitudinal central axis of the tube holder and is acted upon radially inwards by the spring element in the direction of the longitudinal central axis of the tube holder.
- the tube presses the clamping elements radially outward against the respective spring force.
- the clamping elements are pressed radially from the outside against the outer wall of the tube, as a result of which the tube is clamped in the tube receptacle.
- top and bottom refer to the usual alignment of a tube holder with an upwardly opening tube receptacle into which the tube with its head or cap section is inserted from above can be so that the tube with its end to be closed protrudes from the top of the tube holder.
- longitudinal center axis of the tube holder extends vertically.
- axial used here refers to the vertical longitudinal central axis of the tube holder. A radial displacement of the clamping elements takes place perpendicular to it and thus essentially horizontally.
- the invention is not restricted to a corresponding alignment of the tube holder and / or the tube holder.
- a tube holder is known in which the tensioning elements are each pivotably mounted in a pivot bearing about a horizontally extending pivot axis. In this way, a defined pivoting movement of the clamping elements is given.
- the tubes are held non-positively by means of the known tube holder.
- the tensioning elements are displaced against the spring force, as a result of which they exert a tensioning force on the tube and thus an increased frictional force.
- the tube is removed, it is pulled upwards out of the tube holder, whereby the tensioning elements return to their starting position due to the spring force.
- a tube holder in which fingers freely projecting upwards and fingers freely projecting downwards are arranged alternately over the circumference of the tube receptacle, which are under the action of spring elements acting radially inwards. Because of the freely projecting fingers, there is no defined pivoting movement and in particular no defined pivoting axis, so that the clamping elements do not move exactly the same.
- the invention has for its object to provide a tube holder of the type mentioned, with which tubes of different diameters can be held safely and reliably.
- a tube holder with the features of claim 1. It is provided that below the 1st group of tensioning elements, at an axial distance, further tensioning elements are arranged, which are arranged distributed over the circumference of the tube receptacle and form a 2nd group of further tensioning elements, each with a tensioning surface of the outer wall of the tube in Can be brought into contact and with which, under the action of the spring element and / or at least one further spring element (16a), a clamping force acting radially from the outside on the tube used can be applied, wherein the clamping elements are each pivotally mounted in a pivot bearing about a horizontally extending pivot axis.
- the clamping surface of at least some clamping elements and / or at least some further clamping elements has, at least in sections, a contour that is convex in the direction of a longitudinal center axis L of the tube receptacle and curved around a horizontal axis.
- the clamping surface of the clamping element facing the tube has a convex curvature at least in sections, the curvature preferably extending from its upper end to the lower end. Due to the convex, curved contour of the clamping surface, the insertion of the tube is made easier on the one hand, and on the other hand the pivoting of the clamping element automatically adjusts to the diameter of the tube to be accommodated.
- clamping elements are preferably arranged uniformly distributed over the circumference of the tube receptacle and thus over the circumference of the tube. It has proven to be useful to provide at least two clamping elements and in particular 4, 5 or 6 clamping elements for the tube holder.
- the plurality of tensioning elements should preferably be arranged in the same axial position of the longitudinal central axis of the tube holder, ie they should have no offset in the direction of the longitudinal central axis of the tube holder.
- the clamping elements distributed over the circumference of the tube receptacle form a first group of clamping elements.
- the tensioning elements of the 1st group can each be acted upon by their own spring element, in a preferred embodiment of the invention However, it is provided that all tensioning elements of the 1st group of tensioning elements are acted upon by a common spring element, for example an annular spring, which either acts directly on the tensioning elements or acts indirectly on the tensioning elements with the interposition of at least one component.
- further clamping elements are arranged below the first group of clamping elements at an axial distance.
- a plurality of further tensioning elements should be arranged distributed over the circumference of the tube receptacle and thus the tube, a lower tensioning element preferably being assigned to each upper tensioning element.
- the several further clamping elements are preferably arranged in the same axial position of the longitudinal central axis of the tube receptacle and form a second group of further clamping elements.
- the further tensioning elements are under the action of the spring element and / or at least one further spring element.
- the spring element and the further spring element can each be an annular spring.
- a separate spring element can be provided for each of the further tensioning elements, but alternatively it is also possible for all other tensioning elements of the second group of further tensioning elements to be assigned a common further spring element, in particular in the form of an annular spring.
- the first group of clamping elements and the second group of further clamping elements are assigned a single common spring element, in particular in the form of an annular spring.
- the common spring element can act directly on the 1st group of tensioning elements and its effect is indirectly applied to the 2nd group of further tensioning elements, alternatively it is also possible that the common spring element acts directly on the 2nd group of further tensioning elements and that its effect is indirect is applied to the 1st group of clamping elements. Alternatively, it is possible for the common spring element to act neither directly on the 1st group of tensioning elements nor directly on the 2nd group of further tensioning elements, but rather on a transmission component from which the spring force acts on the 1st group of tensioning elements and the 2nd Group of further clamping elements is transmitted.
- At least some and preferably all clamping elements and also at least some and preferably all further clamping elements are each pivotably mounted in a pivot bearing with a defined pivot axis. This ensures a defined pivoting movement of the tensioning elements or of the further tensioning elements and thus defined tensioning forces on the tube.
- the convex contour of the clamping surface is formed by a section of a circular involute with respect to the pivot axis.
- the contact point of the clamping surface of the clamping element on the outer surface of the tube also has the same axial distance from the pivot axis for tubes of different diameters. In this way, defined clamping conditions are also given for tubes of different diameters.
- a trough-shaped depression is formed on the clamping surface.
- the trough-shaped depression preferably extends from the upper end of the clamping surface to its lower end and can be adapted to the contour of the outer surface of the tube to be clamped.
- the trough-shaped recess has, at least in sections, a cross section which is concave in the direction of the longitudinal central axis of the tube receptacle and thus in the direction of the tube, which in a preferred embodiment is designed as an arcuate cross section.
- the cross section of the trough-shaped depression changes continuously at least in sections and preferably over its entire length. This makes it possible to clamp tubes of different diameters not only selectively, but also over a circumferential section or circular arc of the tube diameter.
- the tensioning element is only slightly displaced radially outward, so that the tube comes into contact with it in a middle or in particular lower area of the tensioning surface.
- the trough-shaped depression is provided with a cross section that corresponds in sections to the outer contour of the tube.
- the tensioning element is pivoted a greater distance, so that an upper region of the tensioning surface of the tensioning element with the outer wall of the tube comes in plant.
- the cross section of the trough-shaped depression is adapted to the outer contour of the tube to be accommodated.
- adjacent clamping elements of the 1st group of clamping elements are each connected to one another.
- the tensioning elements of the 1st group of tensioning elements are thus coupled with regard to their movement and in particular are motion-synchronized.
- the further tensioning elements can be the same in terms of shape and / or in terms of the structural design as the tensioning elements above, ie in particular also one that can be brought into contact with the outer wall of the tube
- Have clamping surface, which at least in sections has a contour convex in the direction of the tube and curved about a horizontal axis and preferably also has a trough-shaped depression with the aforementioned configuration.
- At least one of the lower further tensioning elements is connected via a connecting part to the tensioning element lying above it and in particular is motion-synchronized with it.
- the connecting part can be, for example, a pendulum rod, i.e. act a rod articulated on both sides, which is articulated to the upper clamping element and the lower further clamping element.
- a four-bar mechanism is formed with the pivot axes of the clamping elements, by means of which a movement of the upper clamping element is transmitted to the lower further clamping element.
- Each upper tensioning element of the 1st group of tensioning elements is preferably connected to the associated, underlying further tensioning element of the 2nd group of tensioning elements, for which, for example, a large number of connecting parts can be provided.
- a common spring element is provided for the first group of tensioning elements and for the second group of further tensioning elements, this can act on the connecting part or the connecting parts, for example.
- the connecting part also connects adjacent upper clamping elements of the 1st group of clamping elements and / or adjacent lower additional clamping elements of the 2nd group of further clamping elements.
- the connecting part is preferably H-shaped, wherein an upper tensioning element can be arranged between the two upper legs of the H-shape and in particular can be pivotally mounted and a lower additional tensioning element and in particular can be pivotally mounted between the two lower vertical legs.
- the horizontal leg of the H-shape preferably protrudes in opposite directions and is in each case in engagement with a corresponding horizontal leg of an adjacent connecting part with an H-shape. In this way, the connecting part with an H-shape connects two clamping elements one above the other and is in engagement with the adjacent connecting parts with an H-shape via the horizontal legs.
- a tube holder 10 has a housing 11, which is preferably made of plastic and has in its interior an upwardly opening tube receptacle 12, which is shaped like a tube T (see Figure 2 ) is adjusted.
- a longitudinal central axis L of the tube receptacle 12 runs essentially vertically.
- a first group of clamping elements 14 is arranged in the upper region of the tube receptacle 12, which are distributed over the circumference of the tube receptacle 12 and are arranged at a common axial height of the longitudinal central axis L. Since the tensioning elements 14 are all designed identically, only one of the tensioning elements 14 is explained below. The same applies to the other clamping elements 14.
- the tensioning element 14 is mounted in a pivot bearing 20 in the housing 11 so as to be pivotable about a horizontal pivot axis 18. All clamping elements 14 are biased in the direction of the longitudinal central axis L by means of a common spring element 16, which is formed by an annular spring. The spring element 16 engages the clamping element 14 at a relatively small distance a of approximately 3 mm to 5 mm from the pivot axis 18 (see Figure 2 ).
- a similar 2nd group of further pivoting elements 14a Arranged at an axial distance below the 1st group of pivoting elements 14 is a similar 2nd group of further pivoting elements 14a, which corresponds structurally to the 1st group of pivoting elements 14 and comprises several similar further pivoting elements 14a which extend over the circumference of the tube receptacle 12 are distributed.
- the further swivel elements 14a are under the action of a further spring element 16a, which is also designed as an annular spring and acts on the further swivel elements 14a in the direction of the longitudinal central axis L of the tube receptacle 12.
- Each of the upper clamping elements 14 is connected to one of the lower additional clamping elements 14a lying axially below it via a connecting part 19, which will be discussed in detail later. All other clamping elements 14a have the same structural design and correspond in their structural design to the clamping elements 14.
- the clamping element 14 is block-shaped and around the horizontal Pivot axis 18 pivotable, as indicated by the double arrow S.
- the tensioning element 14 is penetrated by the spring element 16 and has on its side facing the longitudinal center axis L of the tube receptacle 12 a tensioning surface 15 which can be brought into contact with an outer wall of the tube T.
- the clamping surface 15 has a contour that is convex in the direction of the longitudinal central axis L and curved about a horizontal axis.
- the convex contour of the clamping surface 15 can be formed by a section of a circular involute with respect to the pivot axis 18.
- a trough-shaped depression 17 is formed on the clamping surface 15, which extends in the vertical longitudinal direction of the clamping surface 15 and has a cross section which is concave in the direction of the longitudinal central axis L and in particular a circular cross section.
- the cross section of the trough-shaped depression 17 is smaller at the lower end of the clamping surface 15 than at its upper end and changes continuously in the longitudinal direction of the clamping surface 15.
- Figure 4 several semicircles are shown schematically, each symbolizing the cross section of tubes of different diameters. Due to the continuously changing, circular arc-shaped cross section of the recess 17, the clamping surface can lie on tubes of different diameters over a large area.
- the convex contour of the clamping surface is preferably formed by a section of a circular involute with respect to the pivot axis 18, as symbolically shown in FIG Figure 5 is shown.
- the result of this is that for each point of the circular involute there is a normal N to a tangent T running through the point at the same distance A from the pivot axis 18 runs.
- the clamping point at which the clamping surface 15 (mathematically theoretically) comes into contact with the outer surface of the tube T has the same distance from the pivot axis 18 regardless of the diameter of the tube T.
- each one of the clamping elements 14 and the associated, further arranged below clamping element 14a are connected to one another via a connecting part 19 and are motion-synchronized, ie when the upper clamping element 14 pivots through an angle ⁇ , this pivoting movement via the connecting part 19 onto the lower further clamping element 14a transmitted, which pivots through a corresponding angle ⁇ .
- the connecting part 19 is articulated both on the upper clamping element 14 and on the lower further clamping element 14a, so that, in kinematic terms, a four-bar linkage is formed, as is the case on the right-hand side of FIG Figure 6 is shown schematically.
- the connecting part 19 is in Fig. 7 shown.
- the connecting part 19 has an H-shaped configuration with two vertical legs 19a which are spaced apart from one another.
- One of the clamping elements 14 is articulated between the upward-pointing sections of the legs 19a of the connecting part 19, and one of the lower further clamping elements 14a is articulated between the downward-pointing sections of the legs 19a.
- Each connecting part 19 has a horizontal central leg 19b with horizontal projections protruding on opposite sides, via which adjacent connecting parts 19 engage with one another.
- One of Projections are designed as a fork (see Fig. 7 , right side), while the projection formed on the opposite side is designed as an engagement part which can be inserted into the fork.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Clamps And Clips (AREA)
- Supports For Pipes And Cables (AREA)
Abstract
Ein Tubenhalter für eine Tubenfüllmaschine besitzt ein Gehäuse (1), das eine nach oben öffnende Tubenaufnahme (12) aufweist, in die eine Tube (T) mit ihrem einen Endbereich eingesetzt werden kann. In der Tubenaufnahme (12) sind mehrere Spannelemente (14) angeordnet, die jeweils mit einer Spannfläche (15) mit einer Außenwandung der Tube in Anlage bringbar sind und mit denen unter Wirkung zumindest eines Federelementes (16) eine radial von außen auf die eingesetzte Tube wirkende Spannkraft aufbringbar ist. Die Spannelemente (14) sind jeweils in einem Schwenklager (20) um eine sich horizontal erstreckende Schwenkachse (18) schwenkbar gelagert. Unterhalb der 1. Gruppe von Schwenkelementen sind in einem axialen Abstand weitere Spannelemente (14a) angeordnet, die über den Umfang der Tubenaufnahme (12) verteilt angeordnet sind und eine 2. Gruppe von weiteren Spannelementen bilden und die unter Wirkung des Federelementes (16) und/oder zumindest eines weiteren Federelementes (16a) stehen. Die Spannfläche zumindest einiger Spannelemente (14) und/oder zumindest einiger weiterer Spannelemente (14a) weist zumindest abschnittsweise eine in Richtung einer Längsmittelachse der Tubenaufnahme konvexe, um eine horizontale Achse gekrümmte Kontur auf.A tube holder for a tube filling machine has a housing (1) which has an upwardly opening tube receptacle (12) into which a tube (T) can be inserted with one end region. A plurality of clamping elements (14) are arranged in the tube receptacle (12), each of which can be brought into abutment with a clamping surface (15) with an outer wall of the tube and with which, under the action of at least one spring element (16), a tube radially from the outside is inserted acting clamping force can be applied. The clamping elements (14) are each pivotally mounted in a pivot bearing (20) about a horizontally extending pivot axis (18). Below the first group of swivel elements, at an axial distance, further clamping elements (14a) are arranged, which are arranged distributed over the circumference of the tube receptacle (12) and form a second group of further clamping elements and which act under the action of the spring element (16) and / or at least one further spring element (16a). The clamping surface of at least some clamping elements (14) and / or at least some further clamping elements (14a) has, at least in sections, a contour which is convex and curved around a horizontal axis in the direction of a longitudinal central axis of the tube holder.
Description
Die Erfindung betrifft einen Tubenhalter für eine Tubenfüllmaschine, mit einem Gehäuse, das eine nach oben öffnende Tubenaufnahme aufweist, in die eine Tube mit ihrem einen Endbereich einsetzbar ist, wobei in der Tubenaufnahme mehrere Spannelemente angeordnet sind, die jeweils mit einer Spannfläche mit einer Außenwandung der Tube in Anlage bringbar sind und mit denen unter Wirkung zumindest eines Federelementes eine radial von außen auf die eingesetzte Tube wirkende Spannkraft aufbringbar ist, wobei die Spannelemente jeweils in einem Schwenklager um eine sich horizontal erstreckende Schwenkachse schwenkbar gelagert sind und wobei die Spannelemente über den Umfang der Tubenaufnahme verteilt angeordnet sind und eine 1. Gruppe von Spannelementen bilden.The invention relates to a tube holder for a tube filling machine, with a housing which has an upwardly opening tube receptacle into which a tube can be inserted with one end region, wherein a plurality of clamping elements are arranged in the tube receptacle, each with a clamping surface with an outer wall of the tube Tube can be brought into contact and with which, under the action of at least one spring element, a clamping force acting radially from the outside on the inserted tube can be applied, the clamping elements each being pivotally mounted in a pivot bearing about a horizontally extending pivot axis, and wherein the clamping elements extend over the circumference of the tube Tube receptacles are distributed and form a 1st group of clamping elements.
Eine Tubenfüllmaschine weist üblicherweise eine endlos umlaufende Fördervorrichtung auf, die eine Vielzahl von Aufnahmen trägt, in die jeweils ein Tubenhalter eingesetzt ist. In jeden Tubenhalter kann von oben eine Tube mit ihrem Kopf- oder Kappenabschnitt eingesetzt werden, wobei die Tube zusammen mit dem Tubenhalter die einzelnen Arbeitsstationen der Tubenfüllmaschine durchläuft. In einigen Arbeitsstationen, beispielsweise in der Füllstation und in der Verschließstation, kann vorgesehen sein, dass die Tube mit ihrem Tubenhalter aus der Aufnahme angehoben und in die jeweilige Arbeitsstation eingeführt wird. Nach Beendigung des Arbeitsschrittes wird die Tube mit ihrem Tubenhalter wieder in die Aufnahme abgesenkt. In einer Entnahmestation wird die gefüllte und geschlossene Tube aus dem Tubenhalter entnommen und abtransportiert.A tube filling machine usually has an endlessly rotating conveying device which carries a plurality of receptacles, in each of which a tube holder is inserted. A tube with its head or cap section can be inserted into each tube holder from above, the tube passes through the individual workstations of the tube filling machine together with the tube holder. In some work stations, for example in the filling station and in the closing station, it can be provided that the tube with its tube holder is lifted out of the receptacle and inserted into the respective work station. After completing the step, the tube is lowered back into the holder with its tube holder. In a removal station, the filled and closed tube is removed from the tube holder and transported away.
Tubenhalter sind in verschiedenen Ausgestaltungen bekannt. Insbesondere weist ein Tubenhalter ein Gehäuse mit einer nach oben öffnenden Tubenaufnahme auf, in die eine Tube, die vorzugsweise aus Kunststoff oder Metall besteht, mit ihrem Kopf- oder Kappenabschnitt eingesetzt wird. In der Tubenaufnahme sind mehrere Spannelemente angeordnet, die über den Umfang der Tubenwandung verteilt sind und jeweils unter Wirkung eines Federelementes stehen. Jedes Spannelement ist senkrecht zur Längsmittelachse der Tubenaufnahme verstellbar und wird von dem Federelement radial nach innen in Richtung der Längsmittelachse der Tubenaufnahme beaufschlagt. Wenn eine Tube in die Tubenaufnahme eingeführt wird, drückt die Tube die Spannelemente entgegen der jeweiligen Federkraft radial nach außen. Infolge der Reaktionskraft werden die Spannelemente radial von außen gegen die Außenwandung der Tube gedrückt, wodurch die Tube in der Tubenaufnahme festgeklemmt wird.Tube holders are known in various configurations. In particular, a tube holder has a housing with an upwardly opening tube receptacle into which a tube, which is preferably made of plastic or metal, is inserted with its head or cap section. Several clamping elements are arranged in the tube receptacle, which are distributed over the circumference of the tube wall and are each under the action of a spring element. Each clamping element is adjustable perpendicular to the longitudinal central axis of the tube holder and is acted upon radially inwards by the spring element in the direction of the longitudinal central axis of the tube holder. When a tube is inserted into the tube receptacle, the tube presses the clamping elements radially outward against the respective spring force. As a result of the reaction force, the clamping elements are pressed radially from the outside against the outer wall of the tube, as a result of which the tube is clamped in the tube receptacle.
Die hier verwendeten Bezeichnungen "oben" und "unten" beziehen sich auf die übliche Ausrichtung eines Tubenhalters mit einer nach oben öffnenden Tubenaufnahme, in die die Tube mit ihrem Kopf- oder Kappenabschnitt von oben eingesetzt werden kann, so dass die Tube mit ihrem zu verschließenden Ende oberseitig aus dem Tubenhalter hervorsteht. Bei einer derartigen Ausrichtung des Tubenhalters erstreckt sich die Längsmittelachse der Tubenaufnahme vertikal. Die hier verwendete Bezeichnung "axial" bezieht sich auf die vertikale Längsmittelachse der Tubenaufnahme. Eine radiale Verlagerung der Spannelemente erfolgt senkrecht dazu und somit im wesentlichen horizontal. Die Erfindung ist jedoch auf eine entsprechende Ausrichtung des Tubenhalters und/oder der Tubenaufnahme nicht beschränkt.The terms "top" and "bottom" used here refer to the usual alignment of a tube holder with an upwardly opening tube receptacle into which the tube with its head or cap section is inserted from above can be so that the tube with its end to be closed protrudes from the top of the tube holder. With such an alignment of the tube holder, the longitudinal center axis of the tube holder extends vertically. The term "axial" used here refers to the vertical longitudinal central axis of the tube holder. A radial displacement of the clamping elements takes place perpendicular to it and thus essentially horizontally. However, the invention is not restricted to a corresponding alignment of the tube holder and / or the tube holder.
Aus der
Dabei ist jedoch der Nachteil gegeben, dass für jede Tubenform und -größe ein separater Tubenhalter notwendig ist. Sollten die Maßtoleranzen der Tube zu groß sein, kann dies bei dem bekannten Tubenhalter zu Problemen führen, da der Tuben-Durchmesser-Bereich, für den eine gute Halterung erreichbar ist, nur wenige Zehntel-Millimeter um das Sollmaß des Tuben-Durchmessers herumliegt. Aus diesem Grunde ist die Konstruktion des bekannten Tubenhalters technisch sehr anspruchsvoll. Selbst bei Mustertuben, für die der Konstrukteur den Tubenhalter dimensioniert, sind die genauen Toleranzen und Maße häufig nicht bekannt, so dass es passieren kann, dass die gefertigten Tubenhalter noch einmal nachbearbeitete werden müssen. Dies ist zeitaufwendig und kostenintensiv.However, there is the disadvantage that a separate tube holder is required for each tube shape and size. If the dimensional tolerances of the tube are too large, this can lead to problems with the known tube holder, since the tube diameter range for which a good holder can be reached is only a few tenths of a millimeter around the nominal size of the tube diameter. For this reason, the construction of the known tube holder is technically very demanding. Even with sample tubes for which the designer dimensioned the tube holder, the exact tolerances and dimensions are often not known, so that it can happen that the manufactured tube holders have to be reworked. This is time consuming and costly.
Aus der
Der Erfindung liegt die Aufgabe zugrunde, ein Tubenhalter der genannten Art zu schaffen, mit dem Tuben unterschiedlicher Durchmesser sicher und zuverlässig gehalten werden können.The invention has for its object to provide a tube holder of the type mentioned, with which tubes of different diameters can be held safely and reliably.
Diese Aufgabe wird erfindungsgemäß durch einen Tubenhalter mit den Merkmalen des Anspruchs 1 gelöst. Dabei ist vorgesehen, dass unterhalb der 1. Gruppe von Spannelementen in einem axialen Abstand weitere Spannelemente angeordnet sind, die über den Umfang der Tubenaufnahme verteilt angeordnet sind und eine 2. Gruppe von weiteren Spannelementen bilden und die jeweils mit einer Spannfläche der Außenwandung der Tube in Anlage bringbar sind und mit denen unter Wirkung des Federelementes und/oder zumindest eines weiteren Federelemente (16a) eine radial von außen auf die eingesetzte Tube wirkende Spannkraft aufbringbar ist, wobei die Spannelemente jeweils in einem Schwenklager um eine sich horizontal erstreckenden Schwenkachse schwenkbar gelagert sind. Dabei weist die Spannfläche zumindest einiger Spannelemente und/oder zumindest einiger weiterer Spannelemente zumindest abschnittsweise eine in Richtung einer Längsmittelachse L der Tubenaufnahme konvexe, um eine horizontale Achse gekrümmte Kontur auf.This object is achieved according to the invention by a tube holder with the features of
Die der Tube zugewandte Spannfläche des Spannelementes besitzt zumindest abschnittsweise eine konvexe Krümmung, wobei die Krümmung sich vorzugsweise von ihrem oberen Ende zum unteren Ende erstreckt. Aufgrund der konvexen, gekrümmten Kontur der Spannfläche ist einerseits das Einführen der Tube erleichtert und andererseits erfolgt durch die Schwenkung des Spannelementes eine automatische Anpassung an den Durchmesser der aufzunehmenden Tube.The clamping surface of the clamping element facing the tube has a convex curvature at least in sections, the curvature preferably extending from its upper end to the lower end. Due to the convex, curved contour of the clamping surface, the insertion of the tube is made easier on the one hand, and on the other hand the pivoting of the clamping element automatically adjusts to the diameter of the tube to be accommodated.
Um eine sichere Halterung der Tube innerhalb des Tubenhalters zu gewährleisten, sind mehrere Spannelemente über den Umfang der Tubenaufnahme und somit über den Umfang der Tube vorzugsweise gleichmäßig verteilt angeordnet sein. Es hat sich als sinnvoll erwiesen, zumindest zwei Spannelemente und insbesondere 4, 5 oder 6 Spannelemente für den Tubenhalter vorzusehen.In order to ensure that the tube is held securely within the tube holder, several clamping elements are preferably arranged uniformly distributed over the circumference of the tube receptacle and thus over the circumference of the tube. It has proven to be useful to provide at least two clamping elements and in particular 4, 5 or 6 clamping elements for the tube holder.
Vorzugsweise sollten die mehreren Spannelemente in gleicher axialer Position der Längsmittelachse der Tubenaufnahme angeordnet sein, d.h. in Richtung der Längsmittelachse der Tubenaufnahme keinen Versatz aufweisen. Die über den Umfang der Tubenaufnahme verteilt angeordneten Spannelemente bilden eine 1. Gruppe von Spannelementen. Die Spannelemente der 1. Gruppe können jeweils durch ein eigenes Federelement beauchschlagt sein, in bevorzugter Ausgestaltung der Erfindung ist jedoch vorgesehen, dass alle Spannelemente der 1. Gruppe von Spannelementen durch ein gemeinsames Federelement, beispielsweise eine Ringfeder beaufschlagt sind, die entweder unmittelbar an den Spannelementen angreift oder unter Zwischenschaltung zumindest eines Bauteils mittelbar an den Spannelementen angreift.The plurality of tensioning elements should preferably be arranged in the same axial position of the longitudinal central axis of the tube holder, ie they should have no offset in the direction of the longitudinal central axis of the tube holder. The clamping elements distributed over the circumference of the tube receptacle form a first group of clamping elements. The tensioning elements of the 1st group can each be acted upon by their own spring element, in a preferred embodiment of the invention However, it is provided that all tensioning elements of the 1st group of tensioning elements are acted upon by a common spring element, for example an annular spring, which either acts directly on the tensioning elements or acts indirectly on the tensioning elements with the interposition of at least one component.
Erfindungsgemäß sind unterhalb der 1. Gruppe von Spannelementen in einem axialen Abstand weitere Spannelemente angeordnet. Vorzugsweise sollten mehrere weitere Spannelemente über den Umfang der Tubenaufnahme und somit der Tube verteilt angeordnet sein, wobei vorzugsweise jedem oberen Spannelement ein unteres weiteres Spannelement zugeordnet ist.According to the invention, further clamping elements are arranged below the first group of clamping elements at an axial distance. Preferably, a plurality of further tensioning elements should be arranged distributed over the circumference of the tube receptacle and thus the tube, a lower tensioning element preferably being assigned to each upper tensioning element.
Die mehreren weiteren Spannelemente sind vorzugweise in gleicher axialer Position der Längsmittelachse der Tubenaufnahme angeordnet und bilden eine 2. Gruppe von weiteren Spannelementen.The several further clamping elements are preferably arranged in the same axial position of the longitudinal central axis of the tube receptacle and form a second group of further clamping elements.
Die weiteren Spannelemente stehen unter Wirkung des Federelementes und/oder zumindest eines weiteren Federelementes. Bei dem Federelement und dem weiteren Federelement kann es sich jeweils um eine Ringfeder handeln. Für die weiteren Spannelemente kann jeweils ein eigenes Federelement vorgesehen sein, alternativ ist es jedoch auch möglich, dass allen weiteren Spannelementen der 2. Gruppe von weiteren Spannelementen ein gemeinsames weiteres Federelement insbesondere in Form einer Ringfeder zugeordnet ist. Es kann aber auch vorgesehen sein, der 1. Gruppe von Spannelementen und der 2. Gruppe von weiteren Spannelementen ein einziges gemeinsames Federelement insbesondere in Form einer Ringfeder zuzuordnen. Das gemeinsame Federelement kann unmittelbar an der 1. Gruppe von Spannelementen angreifen und seine Wirkung wird mittelbar auf die 2. Gruppe von weiteren Spannelementen aufgebracht, alternativ ist es jedoch auch möglich, dass das gemeinsame Federelement an der 2. Gruppe von weiteren Spannelementen unmittelbar angreift und dass seine Wirkung mittelbar auf die 1. Gruppe von Spannelementen aufgebracht wird. Alternativ ist es möglich, dass das gemeinsame Federelement weder unmittelbar an der 1. Gruppe von Spannelementen noch unmittelbar an der 2. Gruppe von weiteren Spannelementen, sondern an einem Übertragungsbauteil angreift, von dem aus die Federkraft auf die 1. Gruppe von Spannelementen und die 2. Gruppe von weiteren Spannelementen übertragen wird.The further tensioning elements are under the action of the spring element and / or at least one further spring element. The spring element and the further spring element can each be an annular spring. A separate spring element can be provided for each of the further tensioning elements, but alternatively it is also possible for all other tensioning elements of the second group of further tensioning elements to be assigned a common further spring element, in particular in the form of an annular spring. However, it can also be provided that the first group of clamping elements and the second group of further clamping elements are assigned a single common spring element, in particular in the form of an annular spring. The common spring element can act directly on the 1st group of tensioning elements and its effect is indirectly applied to the 2nd group of further tensioning elements, alternatively it is also possible that the common spring element acts directly on the 2nd group of further tensioning elements and that its effect is indirect is applied to the 1st group of clamping elements. Alternatively, it is possible for the common spring element to act neither directly on the 1st group of tensioning elements nor directly on the 2nd group of further tensioning elements, but rather on a transmission component from which the spring force acts on the 1st group of tensioning elements and the 2nd Group of further clamping elements is transmitted.
Zumindest einige und vorzugsweise alle Spannelemente und auch zumindest einige und vorzugsweise alle weiteren Spannelemente sind jeweils in einem Schwenklager mit definierter Schwenkachse schwenkbar gelagert. Dies stellt eine definierte Schwenkbewegung der Spannelemente bzw. der weiteren Spannelemente und somit definierte Spannkräfte an der Tube sicher.At least some and preferably all clamping elements and also at least some and preferably all further clamping elements are each pivotably mounted in a pivot bearing with a defined pivot axis. This ensures a defined pivoting movement of the tensioning elements or of the further tensioning elements and thus defined tensioning forces on the tube.
In bevorzugter Ausgestaltung der Erfindung ist vorgesehen, dass die konvexe Kontur der Spannfläche von einem Abschnitt einer Kreisevolventen bezogen auf die Schwenkachse gebildet ist. Bei dieser Ausgestaltung kann erreicht werden, dass der Anlagepunkt der Spannfläche des Spannelementes an der Außenoberfläche der Tube auch für Tuben unterschiedlicher Durchmesser den gleichen axialen Abstand von der Schwenkachse aufweist. Auf diese Weise sind auch für Tuben unterschiedlicher Durchmesser definierte Spannbedingungen gegeben.In a preferred embodiment of the invention, it is provided that the convex contour of the clamping surface is formed by a section of a circular involute with respect to the pivot axis. In this embodiment, it can be achieved that the contact point of the clamping surface of the clamping element on the outer surface of the tube also has the same axial distance from the pivot axis for tubes of different diameters. In this way, defined clamping conditions are also given for tubes of different diameters.
In Weiterbildung der Erfindung kann vorgesehen sein, dass auf der Spannfläche eine muldenförmige Vertiefung ausgebildet ist. Die muldenförmige Vertiefung erstreckt sich vorzugsweise vom oberen Ende der Spannfläche zu deren unterem Ende und kann an die Kontur der Außenoberfläche der festzuspannenden Tube angepasst sein. Insbesondere kann vorgesehen sein, dass die muldenförmige Ausnehmung zumindest abschnittsweise eine in Richtung der Längsmittelachse der Tubenaufnahme und somit in Richtung der Tube konkaven Querschnitt aufweist, der in bevorzugter Ausgestaltung als kreisbogenförmiger Querschnitt ausgestaltet ist.In a further development of the invention it can be provided that a trough-shaped depression is formed on the clamping surface. The trough-shaped depression preferably extends from the upper end of the clamping surface to its lower end and can be adapted to the contour of the outer surface of the tube to be clamped. In particular, it can be provided that the trough-shaped recess has, at least in sections, a cross section which is concave in the direction of the longitudinal central axis of the tube receptacle and thus in the direction of the tube, which in a preferred embodiment is designed as an arcuate cross section.
In Weiterbildung der Erfindung kann vorgesehen sein, dass sich der Querschnitt der muldenförmigen Vertiefung zumindest abschnittsweise und vorzugsweise über ihre gesamte Länge kontinuierlich ändert. Dies ermöglicht es, auch Tuben unterschiedlichen Durchmessers nicht nur punktuell, sondern über einen Umfangsabschnitt bzw. Kreisbogen des Tubendurchmessers zu spannen.In a further development of the invention it can be provided that the cross section of the trough-shaped depression changes continuously at least in sections and preferably over its entire length. This makes it possible to clamp tubes of different diameters not only selectively, but also over a circumferential section or circular arc of the tube diameter.
Wenn eine Tube mit relativ kleinem Tubendurchmesser in die Tubenaufnahme eingesetzt wird, wird das Spannelement nur geringfügig radial nach außen verdrängt, so dass die Tube in einem mittleren oder insbesondere unteren Bereich der Spannfläche mit dieser in Anlage kommt. In diesem Bereich der Spannfläche ist die muldenförmige Vertiefung mit einem Querschnitt versehen, der abschnittsweise der Außenkontur der Tube entspricht.If a tube with a relatively small tube diameter is inserted into the tube receptacle, the tensioning element is only slightly displaced radially outward, so that the tube comes into contact with it in a middle or in particular lower area of the tensioning surface. In this area of the clamping surface, the trough-shaped depression is provided with a cross section that corresponds in sections to the outer contour of the tube.
Wenn eine Tube mit einem relativ großen Durchmesser in die Tubenaufnahme eingesetzt wird, wird das Spannelement um einen größeren Weg geschwenkt, so dass ein oberer Bereich der Spannfläche des Spannelementes mit der Außenwandung der Tube in Anlage kommt. Auch in diesem Bereich ist der Querschnitt der muldenförmigen Vertiefung an die Außenkontur der aufzunehmenden Tube angepasst. Durch einen kontinuierliche Änderung des Querschnitts der muldenförmigen Vertiefungen kann erreicht werden, dass jede Tube unabhängig von ihrem Durchmesser bzw. ihrer Größe über einen Kreisbogen ihres Querschnitts von dem Spannelement mit der Spannkraft beaufschlagt wird.If a tube with a relatively large diameter is inserted into the tube receptacle, the tensioning element is pivoted a greater distance, so that an upper region of the tensioning surface of the tensioning element with the outer wall of the tube comes in plant. In this area, too, the cross section of the trough-shaped depression is adapted to the outer contour of the tube to be accommodated. By continuously changing the cross-section of the trough-shaped depressions, it can be achieved that the clamping element acts on the tube, regardless of its diameter or size, via an arc of its cross-section with the clamping force.
In Weiterbildung der Erfindung ist vorgesehen, dass die Kraft des Federelementes und/oder des weiteren Federelementes oder eines gemeinsamen Federelementes in einem Abstand a von der Schwenkachse an dem Spannelement bzw. den Spannelementen angreift, wobei a<=10mm ist. Vorzugsweise ist vorgesehen, dass a<=8mm und insbesondere a<=5mm ist. Da das Federelement vorzugsweise relativ nahe an der Schwenkachse des Spannelementes liegt, ist die Änderung der Federkraft bei der Schwenkung des Spannelementes relativ gering. Auf diese Weise kann erreicht werden, dass die Spannkräfte, mit denen Tuben unterschiedlichen Durchmessers in der Tubenaufnahme festgespannt werden, nur in geringem Maß voneinander abweichen.In a further development of the invention it is provided that the force of the spring element and / or the further spring element or a common spring element acts on the tensioning element or the tensioning elements at a distance a from the pivot axis, wherein a <= 10 mm. It is preferably provided that a <= 8 mm and in particular a <= 5 mm. Since the spring element is preferably relatively close to the pivot axis of the clamping element, the change in the spring force when pivoting the clamping element is relatively small. In this way it can be achieved that the clamping forces with which tubes of different diameters are clamped in the tube receptacle only differ from one another to a small extent.
In Weiterbildung der Erfindung ist vorgesehen, dass benachbarte Spannelemente der 1. Gruppe von Spannelementen jeweils miteinander verbunden sind. Die Spannelemente der 1. Gruppe von Spannelementen sind somit hinsichtlich ihrer Bewegung gekoppelt und insbesondere bewegungssynchronisiert.In a further development of the invention it is provided that adjacent clamping elements of the 1st group of clamping elements are each connected to one another. The tensioning elements of the 1st group of tensioning elements are thus coupled with regard to their movement and in particular are motion-synchronized.
Die weiteren Spannelemente können hinsichtlich der Form und/oder hinsichtlich der konstruktiven Ausgestaltung den darüber liegenden Spannelementen gleichen, d.h. insbesondere auch eine mit der Außenwandung der Tube in Anlage bringbare Spannfläche aufweisen, die zumindest abschnittsweise eine in Richtung der Tube konvexe, um eine horizontale Achse gekrümmte Kontur aufweist und vorzugsweise auch eine muldenförmige Vertiefung mit der vorgenannten Ausgestaltung besitzt.The further tensioning elements can be the same in terms of shape and / or in terms of the structural design as the tensioning elements above, ie in particular also one that can be brought into contact with the outer wall of the tube Have clamping surface, which at least in sections has a contour convex in the direction of the tube and curved about a horizontal axis and preferably also has a trough-shaped depression with the aforementioned configuration.
In bevorzugter Ausgestaltung der Erfindung ist vorgesehen, dass zumindest eines der unteren weiteren Spannelemente über ein Verbindungsteil mit dem darüber liegenden Spannelement verbunden und insbesondere mit diesem bewegungssynchronisiert ist. Bei dem Verbindungsteil kann es sich beispielsweise um einen Pendelstab, d.h. einen beidseitig gelenkig gelagerten Stab handeln, der an dem oberen Spannelement und dem unteren weiteren Spannelement gelenkig angeschlossen ist. Auf diese Weise ist mit den Schwenkachsen der Spannelemente ein Viergelenkgetriebe gebildet, mittels dessen eine Bewegung des oberen Spannelementes auf das untere weitere Spannelement übertragen wird. Vorzugsweise ist jedes obere Spannelement der 1. Gruppe von Spannelementen mit dem zugeordneten, darunterliegenden weiteren Spannelement der 2. Gruppe von Spannelementen verbunden, wofür beispielsweise eine Vielzahl von Verbindungsteilen vorgesehen sein können.In a preferred embodiment of the invention it is provided that at least one of the lower further tensioning elements is connected via a connecting part to the tensioning element lying above it and in particular is motion-synchronized with it. The connecting part can be, for example, a pendulum rod, i.e. act a rod articulated on both sides, which is articulated to the upper clamping element and the lower further clamping element. In this way, a four-bar mechanism is formed with the pivot axes of the clamping elements, by means of which a movement of the upper clamping element is transmitted to the lower further clamping element. Each upper tensioning element of the 1st group of tensioning elements is preferably connected to the associated, underlying further tensioning element of the 2nd group of tensioning elements, for which, for example, a large number of connecting parts can be provided.
Wenn für die 1. Gruppe von Spannelementen und für die 2. Gruppe von weiteren Spannelementen ein gemeinsames Federelement vorgesehen ist, kann dieses beispielsweise an dem Verbindungsteil oder den Verbindungsteilen angreifen.If a common spring element is provided for the first group of tensioning elements and for the second group of further tensioning elements, this can act on the connecting part or the connecting parts, for example.
Auch für die 2. Gruppe von weiteren Spannelementen kann vorgesehen sein, dass benachbarte weitere Spannelemente jeweils miteinander verbunden und dadurch bewegungssynchronisiert sind.It can also be provided for the second group of further tensioning elements that adjacent further tensioning elements are each connected to one another and are therefore motion-synchronized.
In einer besonders bevorzugten Ausgestaltung der Erfindung ist vorgesehen, dass das Verbindungsteil auch benachbarte obere Spannelemente der 1. Gruppe von Spannelementen und/oder benachbarte untere weitere Spannelemente der 2. Gruppe von weiteren Spannelementen miteinander verbindet. Das Verbindungsteil ist vorzugsweise H-förmig ausgestaltet, wobei zwischen den beiden oberen Schenkeln der H-Form ein oberes Spannelement angeordnet und insbesondere schwenkbar gelagert sein kann und wobei zwischen den beiden unteren vertikalen Schenkeln ein unteres weiteres Spannelement und insbesondere schwenkbar gelagert angeordnet sein kann. Der horizontale Schenkel der H-Form steht vorzugsweise in entgegengesetzten Richtungen hervor und steht jeweils mit einem entsprechenden horizontalen Schenkel eines benachbarten Verbindungsteils mit H-Form in Eingriff. Auf diese Weise verbindet das Verbindungsteil mit H-Form zwei übereinanderliegende Spannelemente miteinander und steht mit den benachbarten Verbindungsteilen mit H-Form über die horizontalen Schenkel in Eingriff.In a particularly preferred embodiment of the invention, it is provided that the connecting part also connects adjacent upper clamping elements of the 1st group of clamping elements and / or adjacent lower additional clamping elements of the 2nd group of further clamping elements. The connecting part is preferably H-shaped, wherein an upper tensioning element can be arranged between the two upper legs of the H-shape and in particular can be pivotally mounted and a lower additional tensioning element and in particular can be pivotally mounted between the two lower vertical legs. The horizontal leg of the H-shape preferably protrudes in opposite directions and is in each case in engagement with a corresponding horizontal leg of an adjacent connecting part with an H-shape. In this way, the connecting part with an H-shape connects two clamping elements one above the other and is in engagement with the adjacent connecting parts with an H-shape via the horizontal legs.
Weitere Einzelheiten und Merkmale der Erfindung sind aus der folgenden Beschreibung eines Ausführungsbeispiels unter Bezugnahme auf die Zeichnung ersichtlich. Es zeigen:
- Fig. 1
- eine perspektivische Ansicht des erfindungsgemäßen Tubenhalters,
- Fig. 2
- einen Längsschnitt durch den
Tubenhalter gemäß Figur 1 mit einer eingesetzten Tube relativ geringen Durchmessers, - Fig. 3
- einen Längsschnitt durch den
Tubenhalter gemäß Figur 1 mit einer eingesetzten Tube relativ großer Durchmessers, - Fig. 4
- eine perspektivische Ansicht eines Spannelementes,
- Fig. 5
- eine schematische Seitenansicht des Spannelementes,
- Fig. 6
- die Kopplung übereinander angeordneter Spannelement in Seitenansicht zusammen mit der zugrundeliegenden kinematischen Struktur und
- Fig. 7
- eine perspektivische Ansicht von zwei miteinander in Eingriff stehenden Verbindungsteilen.
- Fig. 1
- 2 shows a perspective view of the tube holder according to the invention,
- Fig. 2
- a longitudinal section through the tube holder according
Figure 1 with an inserted tube of relatively small diameter, - Fig. 3
- a longitudinal section through the tube holder according
Figure 1 with an inserted tube of relatively large diameter, - Fig. 4
- a perspective view of a clamping element,
- Fig. 5
- is a schematic side view of the clamping element,
- Fig. 6
- the coupling of the clamping element arranged one above the other in a side view together with the underlying kinematic structure and
- Fig. 7
- a perspective view of two mutually engaged connecting parts.
Gemäß
Im oberen Bereich der Tubenaufnahme 12 ist eine 1. Gruppe von Spannelementen 14 angeordnet, die über den Umfang der Tubenaufnahme 12 verteilt sind und auf einer gemeinsamen axialen Höhe der Längsmittelachse L angeordnet sind. Da die Spannelemente 14 alle konstruktiv gleich ausgestaltet sind, wird im folgenden nur eines der Spannelemente 14 erläutert. Für die anderen Spannelemente 14 gilt dann Entsprechendes.A first group of clamping
Das Spannelement 14 ist in einem Schwenklager 20 um eine horizontale Schwenkachse 18 schwenkbar im Gehäuse 11 gelagert. Alle Spannelemente 14 sind mittels eines gemeinsamen Federelementes 16, das von einer Ringfeder gebildet ist, in Richtung der Längsmittelachse L vorgespannt. Das Federelement 16 greift dabei in einem relativ kleinen Abstand a von ca. 3mm bis 5mm von der Schwenkachse 18 an dem Spannelement 14 an (siehe
In axialem Abstand unterhalb der 1. Gruppe von Schwenkelementen 14 ist eine gleichartige 2. Gruppe von weiteren Schwenkelementen 14a angeordnet, die in konstruktiver Hinsicht der 1. Gruppe von Schwenkelementen 14 entspricht und mehrere gleichartige weitere Schwenkelemente 14a umfasst, die über den Umfang der Tubenaufnahme 12 verteilt angeordnet sind. Die weiteren Schwenkelemente 14a stehen unter Wirkung eines weiteren Federelementes 16a, das ebenfalls als Ringfeder ausgestaltet ist und die weiteren Schwenkelemente 14a in Richtung der Längsmittelachse L der Tubenaufnahme 12 beaufschlagt.Arranged at an axial distance below the 1st group of pivoting
Jedes der oberen Spannelemente 14 ist mit einem der in axialem Abstand darunterliegenden unteren weiteren Spannelemente 14a über ein Verbindungsteil 19 verbunden, worauf später im Detail eingegangen wird. Alle weiteren Spannelemente 14a weisen den gleichen konstruktive Aufbau auf und entsprechen in ihrem konstruktiven Aufbau den Spannelementen 14.Each of the
In
Auf der Spannfläche 15 ist eine muldenförmige Vertiefung 17 ausgebildet, die sich in vertikaler Längsrichtung der Spannfläche 15 erstreckt und einen in Richtung der Längsmittelachse L konkaven Querschnitt und insbesondere kreisbogenförmigen Querschnitt aufweist.A trough-shaped
Der Querschnitt der muldenförmigen Vertiefung 17 ist am unteren Ende der Spannfläche 15 geringer als an ihrem oberen Ende und ändert sich in Längsrichtung der Spannfläche 15 kontinuierlich. In
Vorzugsweise ist die konvexe Kontur der Spannfläche von einem Abschnitt einer Kreisevolventen bezogen auf die Schwenkachse 18 gebildet, wie es symbolisch in
Wie
Das Verbindungsteil 19 ist in
Jedes Verbindungsteil 19 weist einen horizontalen mittleren Schenkel 19b mit auf entgegengesetzten Seiten hervorstehenden horizontalen Vorsprüngen auf, über die benachbarte Verbindungsteile 19 miteinander in Eingriff stehen. Einer der Vorsprünge ist als Gabel ausgestaltet (siehe
Claims (16)
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DE102019000473.6A DE102019000473A1 (en) | 2019-01-24 | 2019-01-24 | Tube holder for a tube filling machine |
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EP3685944A1 true EP3685944A1 (en) | 2020-07-29 |
EP3685944B1 EP3685944B1 (en) | 2021-08-11 |
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EP19000588.4A Active EP3685944B1 (en) | 2019-01-24 | 2019-12-23 | Tube holder for a tube filling machine |
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US (1) | US11111041B2 (en) |
EP (1) | EP3685944B1 (en) |
DE (1) | DE102019000473A1 (en) |
Citations (2)
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DE1275438B (en) | 1966-02-25 | 1968-08-14 | Karlsruhe Augsburg Iweka | Self-centering holder for tubes on a tube filling and closing machine |
DE102006055854A1 (en) | 2006-11-27 | 2008-05-29 | Iwk Verpackungstechnik Gmbh | Tube holder for a tube filling machine |
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US3147018A (en) * | 1962-08-01 | 1964-09-01 | Reichert August | Self-centering holder for automatic tube filling machines and a jaw member therefor |
US3819194A (en) * | 1972-10-16 | 1974-06-25 | Domain Ind Inc | Tube holder |
DE3744402A1 (en) * | 1987-12-29 | 1989-07-13 | Iwk Verpackungstechnik Gmbh | METHOD AND DEVICE FOR CENTERING TUBES |
US4958667A (en) * | 1989-07-17 | 1990-09-25 | R. A. Jones & Co., Inc. | Tube holder for tube filling machines |
DE19718207A1 (en) * | 1997-04-30 | 1998-11-05 | Iwk Verpackungstechnik Gmbh | Tube filling machine |
DE102007042433A1 (en) * | 2007-09-06 | 2009-03-12 | Iwk Verpackungstechnik Gmbh | Method and device for filling tubes in a tube filling machine |
CN107207103B (en) * | 2015-02-11 | 2020-03-03 | 高露洁-棕榄公司 | Tube holder for filling machine |
-
2019
- 2019-01-24 DE DE102019000473.6A patent/DE102019000473A1/en not_active Withdrawn
- 2019-12-23 EP EP19000588.4A patent/EP3685944B1/en active Active
-
2020
- 2020-01-23 US US16/750,746 patent/US11111041B2/en active Active
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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DE1275438B (en) | 1966-02-25 | 1968-08-14 | Karlsruhe Augsburg Iweka | Self-centering holder for tubes on a tube filling and closing machine |
DE102006055854A1 (en) | 2006-11-27 | 2008-05-29 | Iwk Verpackungstechnik Gmbh | Tube holder for a tube filling machine |
Also Published As
Publication number | Publication date |
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US11111041B2 (en) | 2021-09-07 |
EP3685944B1 (en) | 2021-08-11 |
US20200239166A1 (en) | 2020-07-30 |
DE102019000473A1 (en) | 2020-07-30 |
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