This application claims the priority of German patent application Serial No 103 49 560.6 filed Oct. 22, 2003, the subject matter of which is incorporated herein by reference.
The invention concerns an apparatus for decorating objects which are stiff in respect of shape, referred to herein for brevity as stiff objects.
Those objects may be for example bottles comprising glass, plastic material or any other suitable material, or other stiff objects.
A form of apparatus for decorating stiff objects, which can be considered representative in this respect, comprises a conveyor path, with holders displaceable along the conveyor path for moving the objects therealong. A plurality of treatment stations for treating the objects are disposed along the conveyor path, including at least one printing station for applying decoration to the articles and at least one drying station downstream of the printing station for drying ink applied to the objects. In that respect it is nowadays the usual practice to employ printing inks which dry comparatively quickly, for example under the effect of UV radiation.
In the case of multi-color printing the procedure adopted is frequently such that partial print images involving different colors are applied to the object in successive printing steps, for example using a screen printing process. The totality of those partial print images which are printed one within the other then affords the overall print image. When using such a printing process, it is normally necessary, after each printing operation for producing a partial print image, for that partial print image to be dried before the next partial print image is applied or the object can be handled in some other fashion. Accordingly, such an apparatus as outlined above generally has a respective drying station arranged downstream of each printing station in the direction of transportation movement of the objects through the apparatus, for drying the printing ink applied in the printing station upstream of each such drying station.
When using UV radiating devices in the drying stations, precautions possibly have to be taken to screen the area around the individual drying stations from the UV radiation.
It will be seen that a printing machine of the general structural configuration referred to above will usually require a considerable amount of space as multi-color printing is implemented by means of a machine comprising three, five or more printing stations and thus a corresponding number of drying stations. It will be appreciated that this requires a conveyor path of corresponding length which thus makes the machine very long when the path is a linear path or, when the machine is of a turntable kind involving a circular conveyor path along which the object holders are displaced, the arrangement will be of a correspondingly large diameter. Not only is the amount of space required very great but transportation and servicing of the machine are also made more difficult.
An object of the present invention is to provide an apparatus for decorating stiff objects which is so designed that for a given length of the object conveyor path there is a possibility of providing more treatment stations such as printing and drying stations, or, with a given number of such treatment stations the object conveyor path can be shorter.
A further object of the invention is to provide an apparatus for decorating stiff objects with a plurality of printing stations and respective downstream-disposed drying stations, which can be of a compact configuration having regard to the total number of treatment stations involved.
Yet another object of the present invention is to provide an apparatus for decorating stiff objects which is designed to provide for a quick and rational movement of objects from a printing station to the respective following drying station.
In accordance with the principles of the present invention the foregoing and other objects are attained by an apparatus for decorating stiff objects comprising an arcuate conveyor path, and holders transportable along the conveyor path for displacing objects to be decorated therealong. A plurality of treatment stations for treating the objects are disposed along the conveyor path, including at least one printing station for decorating the objects and at least one drying station arranged downstream of the printing station in the direction of transportation movement of the objects, to dry printing ink applied to the objects. The at least one drying station is at a spacing below the level at which the at least one printing station upstream thereof is disposed. The apparatus further has means for moving the holders upwardly and downwardly between a treatment procedure in a printing station and a treatment procedure in the respective following drying station and between a treatment procedure in a drying station and a treatment procedure in the respectively following printing station. The objects are printed upon from above and dried from below.
As will be seen from the description hereinafter of preferred embodiments of the invention, printing stations can be arranged above the conveyor path or form an upper boundary thereof and drying stations can be arranged below the conveyor path or form a lower boundary thereof. Thus, as considered in the direction of conveyor movement of the objects, the spacing between two successive printing stations can be markedly reduced, with the holders, after a printing operation has been carried out, being movable downwardly in order in that way to compensate for the difference in height between the level at which the printing procedure takes place and the level at which drying is effected. In that respect, possibly at the same time, rotational movement of the object about its longitudinal axis or an axis parallel thereto can be effected when the object is being printed upon at the top side but dried at the underside. That applies at any event in relation to objects which for example are of an elliptical or like cross-section.
After the drying operation has been effected, when the operating procedure to be carried out in the apparatus requires the application of further printing to the object in question, the object can be moved upwardly. If necessary, once again the object can be rotated in order to move it into the appropriate position for the following printing operation. Those upward and downward movements which are possibly necessary and also the rotational movements can be effected at least in part during the forward movement of the object along the conveyor path from one station to another so that the movements are implemented in mutually superposed relationship.
The devices required for producing the vertical movement components do not represent an additional requirement at any event if the apparatus is also used for printing on elliptical objects or other objects of an irregular shape, and the plane in which the printing operation is effected does not experience a change in its position in respect of height, as then, during that printing operation, the object must in any case perform a vertical movement which leads to vertical displacement of its longitudinal axis.
As, in the design configuration according to the invention, the drying stations are arranged below the level of the printing stations, the spacing between two adjacent printing stations needs to correspond substantially only to the cross-sectional dimensions of the objects and the holders carrying same. It is thus possible to make a quite considerable space saving which permits a substantially shorter conveyor path or, when the conveyor path is of a given length, allows a larger number of treatment stations to be disposed therealong. It is optionally possible for the conveyor path portions between the stations to be smaller.
In accordance with a preferred feature of the invention the upward and downward movements of the object-carrying holders can be achieved in a simple manner by the provision of a common, vertically reciprocatable guide element being associated with a plurality of holders, to which guide element the holders are connected, for example by way of respective cam rollers, with the respective heightwise positions of the holders being set by suitable vertical adjustment of the respective guide element.
In accordance with a further preferred feature of the invention, when using UV radiation for drying the printing inks on the printed object, the regions containing the printing stations on the one hand and the regions containing the drying stations on the other hand are screened relative to each other. That can be effected by flat sight screens but also by screening elements which are disposed between the holders for carrying the objects and which are movable therewith.
Further objects, features and advantages of the invention will be apparent from the description hereinafter of preferred embodiments thereof.
It will first be noted that the embodiments of an apparatus according to the invention as are shown in the drawing are in the form of round apparatuses, that is to say the transport path along which holders for carrying objects to be displaced is of a circular configuration. The illustrated embodiments are provided with treatment stations consisting of five printing stations A-E in the form of screen printing stations and five drying stations I-V in the form of UV drying stations. The drying stations I-V are each arranged downstream of a respective one of the printing stations A-E in the direction of rotation indicated by arrow 12 of the turntable-like arrangement 10. The objects to which decorative printing is to be applied in this case involve bottles 14 carried by respective holders 16. The holders 16 are advanced about a vertical axis stepwise along a circular conveyor path as indicated at 18 for example in FIG. 2. The spacing between one of the printing stations A-E and the respective drying station I-V arranged downstream thereof in the direction of conveying movement of the objects is so selected that it corresponds to a conveyor stepping movement along the conveyor path 18.
Provided in each of the printing stations A-E is a screen printing stencil 20 which extends substantially in a horizontal plane and which co-operates with a doctor as indicated at 22 in for example FIG. 2. Each of the drying stations I-V is provided with at least one UV radiating device indicated for example at 24 in
Referring still generally to the drawing the embodiments illustrated therein by way of example of the invention are each provided with an annular table 26 which is movable stepwise about a vertical axis in the direction of the arrow 12 in FIG. 1. The object holders 16 are mounted to the table 26 in such a way that the respective object 14 carried by a holder 16 extends substantially radially with respect to the axis of rotation of the table 26. Each holder 16, in the manner which is usual when dealing with articles in bottle shape, has a centering point indicated at 29 for example in
Referring now more specifically to
In addition the mounting portion 33 is connected between the compensating coupling 34 and the receiving means 30 to a transverse member 44 to which is fixed a carrier 46 which extends substantially parallel to the longitudinal axis of the object 14 and which near its free end carries the centering point 29, with the interposition of an adjusting device 47. The adjusting device 47 permits displacement of the centering point 29 in the direction of the longitudinal axis of the object 14 in order to clamp it in or release it from the holder 16. Those arrangements are familiar in the art so that there is no need for a more detailed description of either their specific design configuration or the mode of operation thereof.
Referring now also to
Looking now at
Referring now to
Looking at
Arranged directly below the lower screening plate 65 are the devices of the drying stations I-V which essentially involve UV lamps 24, as can be seen from FIG. 3. They are provided at the top side with an opening indicated at 25 in FIG. 5 through which the UV rays from the lamps 24 are directed at least predominantly in a direction on to the respective objects 14 to be found thereabove. In this case the lower screening plate 65 is also provided above the through opening for the UV rays in the housing of the UV lamp with a respective radial cut-out 68 which is matched to the configuration and size of the objects 14 or the area to which printing is to be applied thereon, in order in that way to make the respective object 14 positioned in the respective drying station accessible to the UV rays. The cut-outs 66 and 68 are thus arranged in mutually displaced relationship by a distance corresponding to one conveying step in the conveying movement of the objects 14 through the apparatus.
In the region of stations indicated at Y and X in
The conveyor system comprising all of the holders 16 is provided in the region of the conveyor path 18 with additional screening elements 70 which are each formed by a profile portion. Such a screening element is arranged between each two holders 16 which follow in succession in the longitudinal direction of the conveyor path 18, as will be seen in particular from
In this embodiment of the apparatus the approximately radially extending screening elements 70 are of an asymmetrical configuration at least in cross-section in such a way that an upper flange indicated at 73 in for example
It is desirable to provide a small spacing of for example 1-2 mm between the respective other screening plate and the screening element 70 or the respective flange thereof, so that there is no need for a precise fit between the two screening plates 64, 65 and the screening elements 70. With that small spacing, there is no risk of UV rays being able to pass through between the screening plates 64, 65 on the one hand and the screening elements 70 on the other hand.
It will be seen from the drawing, for example
Reference will now be made to
As will be seen from
The movement of the printing doctor 22 during the printing operation in the direction indicated by the arrow 76 in
The pivotal movement of the object 14 from the position of
The displacement as between the shaft portions 32 and 35, which is to be compensated by the coupling 34, is present in vertical directions. During a printing operation, the rotational movement of the elliptical object 14 about its longitudinal axis means that there is a variation in the heightwise position of the object 14 in such a way that, during the first half of the printing operation starting from the position shown in
During the printing operation the object 14 which is carried by the holder 16 is so arranged that at least the part, which is acted upon by the doctor 22, of the surface 78 or 83 to which printing is to be applied, projects slightly upwardly with respect to the upper screening plate 64, that is to say it protrudes slightly upwardly out of the cut-out 66, in order thus to permit satisfactory contact to occur between the surface 78 or 83 on the one hand and the screen printing stencil 20 on the other hand which, apart from the slight stretching effect under the action of the doctor 22 applying a downward force thereto, is not displaced vertically during the printing operation.
While the printing operations are taking place in the printing stations, an object 14 is being dried in a respective following drying station. Thus, the object 14 being dried in a given drying station is one to which printing had been applied in the preceding operating cycle, in the respectively preceding printing station. As the UV radiating devices 24 disposed in the respective drying stations I-V are each disposed beneath the conveyor path 18, they act on the downwardly facing side of the object 14 in the respective drying station so that, at any event when treating objects of elliptical or similar cross-section, the object is turned substantially through 180° after the printing operation so that the surface 78 or 83 which had been facing upwardly during the printing operation in the printing station now faces downwardly and is thus made available to the UV effect from the UV radiating devices 24. That pivotal movement of the previously printed objects is effected starting from the position shown in
The printing ink applied to the respective object 14 in the preceding treatment step in the printing stations is now dried in the respective following station. In that case, the objects perform a pivotal movement which is also implemented simultaneously by the objects 14 in the printing stations, during the printing operation, the holders thereof being connected to the crown wheel 36 by way of the clutches 42.
Reference will be made at this juncture to
The screening plates 64 and 65 and the screening elements 70 screen the printing stations and also the rest of the surroundings in relation to the UV rays. Screening of the printing stations is particularly important for the reason that, if UV rays are allowed to act on the screen printing stencils in the printing stations, the printing ink used therein would very rapidly harden.
After drying of the printing ink applied to the object 14 in the station A, in the drying station I as indicated in
At the same time, the next conveying stepping movement of the conveyor system comprising the holders 16 and the screening elements 70 also takes place in the direction of the arrow 12 so that the object 14 moves out of the station I into the following printing station B and is moved therein into the position for the commencement of the next printing operation. In the following treatment step, a further partial printing image is then applied to the partial printing image already applied in the station A, to the surface 78, the object assuming the position shown in
Pivotal movement of the printed object then takes place, as shown in
The object 14 which is now in the printing station II is to have further printing applied thereto, in the following printing station C and possibly in still further printing stations, on the surface 83 which is in opposite relationship to the surface 78 which has already been provided with two partial printing images, and thus, as the surface 78 faces downwardly, the surface 83 faces upwardly by virtue of the symmetrical, approximately elliptical configuration of the object 14. Thus the position assumed by the object 14 in the station II already satisfies the condition that the surface 83 to which printing is next to be applied is accessible from above. Thus, in contrast to the positioning operation subsequent to the drying step in station I, for the next printing operation in station B, there is no need for the object 14 to be pivoted again through 180°.
That would occur however if the holder carrying the object 14, or the receiving means 30 thereof, were to remain connected to the crown wheel 36. In order to prevent a pivotal movement of the object 14 between the station II and the following printing station C, the shift clutch 42 of the holder 16 in the station II is actuated in such a way that the connection between the gear 38 of that holder, which is in a condition of engagement with the crown wheel 36, and the receiving means 30, is interrupted. That takes place in the course of the conveying movement from the printing station B into the drying station II after the object 14 has reached the angular position shown in
For the purposes of actuation of the shift clutch 42 at the holders 16 the apparatus is provided with first and second cams indicated at 90 and 92 for example in
During the following conveying stepping movement in the direction of the arrow 12, the clutch 42 is re-engaged when the object 14 is transported from the station II into the printing station C. That is produced by virtue of the fact that, in that region, the cam 90 is of a configuration which permits engagement of the clutch 42 under the force of a coil spring as indicated at 93 in
After the conclusion of the printing operation in station C the object is then pivoted again in the manner described hereinbefore with reference to
By virtue of the common drive by means of the crown wheel 36, the objects 14 in the respective drying stations I and III are pivoted about their respective longitudinal axis synchronously with the objects in the respective printing stations. In contrast, the respective object in the drying station II does not participate in those pivotal movements since, as explained hereinbefore, the shift clutch 42 of the respective holder which is in the station II is in a disengaged condition. However that consideration, that is to say the absence of the pivotal movements, does not adversely affect the drying operation, especially as the downward movement, caused by the respective stroke-producing ring 54, 55, of the holder and therewith the object 14 from the position in the printing station into the position in the respectively following drying station can be so selected that the relative positioning of the object 14 and the UV radiating device 24 in any case affords adequate drying of the printing ink on the object 14.
It will be seen that the embodiments illustrated in the drawing are provided with sixteen holders 16 so that, as already indicated above, eight holders are associated in each case alternately with one of the two stroke-producing rings 54, 55. Thus, FIG. 1 and
The extent of the vertical movement of the holders 16 and therewith the objects 14, between the level of a printing station and that of a drying station, depends also on the cross-sectional dimensions of the objects 14. Thus it is possible, for example when applying printing to objects whose cross-section in the region to be printed upon is cylindrical and relatively large, for the vertical movements to be reduced by suitable adjustment of the programs for controlling the movements of the rings 54 and 55, to a small distance which is sufficient to move the object in the printing stations below the level defined by the lower boundary of the screening plate 64 so that the respective object is not impeded by the screening plate 64 in terms of the conveying stepping movement into the respective next station. With the presumed large diameter of the object, the object in the drying station would be in any case disposed with its underside so close to the UV radiating device that satisfactory drying thereof would be guaranteed. That can be achieved by simply rotating the object 14 about its longitudinal axis, when printing is to be applied to the object all around same. When dealing with cylindrical or almost cylindrical objects, the transfers from the printing stations into the respective following drying station, as described hereinbefore with reference to
When applying printing to an object which is of a cylindrical or similar shape, generally a simple rotary movement about the longitudinal axis of the object or about an axis parallel thereto will be sufficient to bring each desired region of the surface of the object into the operative region of the UV rays, in the respective drying station. In that respect, in dependence on the size of the diameter of the object, it may be desirable to provide for vertical displacements thereof in order to move the object closer to the UV radiating device in the form of a lamp for example in the drying station. In addition, when applying printing to objects of a cylindrical or similar shape, it may also be desirable or possibly even necessary for the connection between the holder 16 and the crown wheel 36 to be interrupted by suitable actuation of the respective shift clutch 42 in order for example to set the object in specific angular positions or simply to interrupt the rotary movement thereof.
The operating procedure described hereinbefore with reference to and as shown in
In the illustrated embodiments, the width of the flanges 73 and 74 of the screening elements 70 transversely with respect to the longitudinal dimension of the associated web portion 72 and also the length thereof are so selected that, during the conveying stepping movement, the screening elements 70 which advance in the conveying direction 12 completely close the cut-outs 66 and 68 respectively when they assume approximately the central position between two treatment stations, as is shown in FIG. 7D. The movements illustrated in
At the outward side the conveyor path 18, at least in the region of the respective drying stations, is delimited and screened by a suitable screening means such as a stationary metal sheet indicated at 95 for example in FIG. 3. At the inward side there is normally no need to provide a particular screening arrangement as the apparatus components disposed there in any case provide for a sufficient screening action in relation to UV rays.
Which configuration of the screening elements 70 is preferred in each case also depends inter alia on the configuration and size of the objects 14 and the extent of the movements which the objects and therewith the respective holder carrying same perform in the treatment stations. The structure shown in
The upper screening plate 64 can be of a double-wall nature in such a way that it comprises two metal sheets which are arranged at a small spacing from each other of for example 1 mm and through which coolant such as cooling air can be passed. Whether that is necessary depends on the respective circumstances involved, in particular the number of UV lamps, the radiation duration, that is to say for example also whether the UV radiating devices are in operation uninterruptedly at full power or whether their power is reduced for example during the transport stepping movement, and also other circumstances such as for example the external temperature.
In the embodiments illustrated in the drawing the stations T, U and W arranged between the drying station V which is last in the conveying direction 12 and the object-removal station X can serve to check for example the quality of a print image applied to the objects. That can be effected by means of cameras or other suitable devices which detect the print image on the respective object, through the respective cut-out 66 or 68. The pivotal or rotational movement of the object produced by the action of the crown wheel 36 can be used to bring the entire print image into the recording region of the camera. Depending on the respective requirements involved however it is also possible for the station T to be provided as a further printing station and for the station U to be a further drying station so that it is also possible for example to apply a further print image or partial print image, possibly using a different color or ink, to the object.
In the removal station X the object will be in the lower position shown in
In the introduction station Y the holders 16 are each in the upper position shown in
The second arm 104 of the introduction apparatus 98, in the starting position thereof as shown in
In the course of the movement from the station W into the removal station X the respective holder 16 has been opened by suitable displacement of the centering tip 29 in the direction of the longitudinal axis of the object, that opening movement and the function of the removal gripper (not shown) being synchronised in such a way that the object is gripped by the removal gripper at the latest at the time at which the holder 16 is opened. The holder 16 which is now empty remains opened until it reaches the introduction station Y. It is closed as soon as an object 14 has been moved into the region of the holder 16 by the third arm 106 of the apparatus 98.
Displacement of the centering tip 29 can be produced for example by a stationary cam which acts by way of suitable means, for example a cam roller or the like, on the displaceably arranged centering tip 29. In that way, actuation of the centering tip 29 for opening and closing the respective holder can be derived from the conveying movement of the holder 16 in the direction of the arrow 12. As already indicated above, on passing through the stations X and Y the holders 16 are uncoupled from the drive produced by the crown wheel 36 in order in that way to facilitate introduction and removal of the objects into and out of the respective holders 16.
The objects or bottles which are fed to the station Y by the introduction apparatus 98 are introduced through the cut-out 66 in the upper screening plate 64, that is to say from above, into a respective holder 16 in the station Y. For that purpose the part of the third arm 106, which carries a respective object or bottle, is adapted to be movable upwardly and downwardly. The introduction apparatus 98 on the one hand and the removal apparatus on the other hand are arranged at a vertical spacing from each other so that the movements of the one item of equipment can be implemented independently of the movements of the respective other item of equipment.
It will be appreciated that the above-described embodiments of the apparatus according to the invention have been set forth solely by way of example and illustration of the principles thereof and that various other modifications and alterations may be made therein without thereby departing from the spirit and scope of the invention.
Number | Date | Country | Kind |
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103 49 560 | Oct 2003 | DE | national |
Number | Name | Date | Kind |
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3518939 | Donner et al. | Jul 1970 | A |
6079326 | Strutz et al. | Jun 2000 | A |
6546859 | Troncon et al. | Apr 2003 | B1 |
Number | Date | Country | |
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20050087082 A1 | Apr 2005 | US |