The present invention relates to a dispenser for opening a tape-like packaging, which tape-like packaging comprises first and second films releasably connected to each other and forming envelopes respectively sealed around an object and disposed sequentially with a predetermined pitch.
Dispensers of this type are well-known and are used in the fields of biotechnology, in the pharmaceutical or beverage industry during testing processes for opening and offering up in a grasping position sequentially the objects packaged in such a tape-like packaging.
In these fields the objects are sterile membranes or other disposable sterile laboratory supplies that are used in laboratory processes in large numbers.
One type of such dispenser and details of a typical tape-like packaging for sterile membranes to which the dispenser of the present invention pertains are described in EP0585145 A1. This tape-like packaging for sterile membranes comprises a first continuous film of a paper base and a second continuous film superposed on the first film and made of a transparent plastic material. The envelopes are formed by sealing the first and second films around the objects (i.e. sterile membranes), thereby forming the envelopes or pockets disposed sequentially with the predetermined pitch. The envelopes can be opened and the objects can be released therefrom in that the first and second films are pulled apart from each other, thereby separating the first and second films at the seals. In order to allow the pulling apart of the first and second films, the films must be resistant to traction along the tape.
An example of an advanced dispenser that is also described in EP0585145 A1 has a pair of rollers which are each driven by a separate motor and which each wind up one of the first and second films after the films have been separated. The dispenser described in EP0585145 A1 also has a separator through which the tape-like packaging is passed, wherein the envelopes are opened and the objects are released when the pulling forces resulting from the winding act on the first and second films and spread apart the films at an outlet of the separator. The separator is in the form of a pair of parallel bars fixed to the dispenser housing and defining therebetween a slot through which the tape passes.
The tape-like packaging is typically shipped and stored in a box-like container in a state folded in a Leporello- or accordeon-like fashion with the benefit of the individual envelopes and the membranes received therein being kept flat during storage and handling. Another alternative is to simply wind up the tape-like packaging to a roll which may work as well with the common disadvantage of a certain bending of the envelopes and the membranes contained therein.
Another dispenser for a tape-like packaging of this type containing sterile membranes is disclosed in DE29805100 U1. This dispenser likewise has a pair of driven winding rollers for the separated films and the rollers are drivingly coupled through a drive belt with each other and with a pair of drive rollers forming a nip gap through which the tape-like packaging is conveyed before the films of the tape are spread apart.
One disadvantage of the previously-known dispensers for a tape-like packaging is the relatively complex process of loading the tape-like packaging into the dispenser. Typically, the box-like container or roll containing the tape-like packaging is loaded into a holder of the dispenser, for which sometimes a casing of the dispenser has to be opened. Then, a length of the tape is withdrawn from the container/roll, the tape is inserted through the nip gap of the fixed separator, the films are spread apart and the two films are pulled or guided through the guiding and conveying mechanism and finally attached to the separate winding spools or receivers. The casing of the dispenser is then closed.
This process is time consuming and not easy and requires experience. The complex mechanics increases the cost of production, make the dispensers bulky and/or heavy and difficult to clean and/or sterilize in laboratory environments. Since the tape has to be manually inserted through the slot in the separator from a lateral side the manual handling is cumbersome and requires manual delicate adjustments until the tape and/or the films are properly aligned and not inclined for the subsequent automated winding process. If a jam occurs along the transport path of the tape the films are difficult to remove because the transport path is not accessible easily.
To solve at least some of the problems mentioned above is the object of the invention.
The invention accordingly provides a dispenser as defined in claim 1. Preferred embodiments are defined in the dependent claims.
The present invention provides a dispenser for opening a tape like packaging, which tape like packaging comprises first and second films releasably connected to each other and forming envelopes respectively sealed around an object and disposed sequentially with a predetermined pitch. The dispenser comprises a space for holding a container of the tape like packaging, a separator through which the tape like packaging can be passed, for spreading apart and separating the first and second films at an outlet thereof when a pulling force is acting on the first and second films, thereby opening said envelopes and releasing the objects contained therein, and means for winding up the separated first and second films of the tape like packaging. The separator comprises a covermember that is articulated to the dispenser to be movable between a closed position and an open position such that it cooperates with a counter element to define, in the closed position, the outlet and a pinching zone of the tape like packaging at a position upstream of the outlet, and, in the open position, releases the tape like packaging.
The provision of the cover member that is articulated to the dispenser to be movable between the closed and open positions provides the advantage that the transport path can be easily opened and accessed to load a new tape into the dispenser. Since the outlet of the separator and the pinching state of the tape in the separator is only present in the closed position, the tape can be easily placed into the separator in the open state of the cover member. The loading process and jam removal is considerably faster and easier to achieve than in previous dispensers.
The cover member preferably has an elongated lever-like shape with a pivot joint at a forward or a rearward end portion or with plural pivot joints connected to arms defining a parallelogram-type moving mechanism for effecting the movement between the closed and the open positions. The elongated shape provides an advantage that the operation is easy and intuitive and requires only a modest operating force due to the leverage effect. It in fact allows a one-hand operation of the entire loading process.
Preferably the cover member includes a guide surface formed at a top side facing away from the pinching section, for guiding one of the first and second films of the tape away from the outlet. This structure is especially useful where the cover member has the elongated lever-like shape and it combines various functions in a single element, thereby making the structure more simple, less costly, more efficient to operate and clean.
The integration of various functions into the cover member can be even further promoted in that the cover member is provided such that it additionally holds the container in the space when in the closed position, and provides access to the space to remove/insert the container when in the open position. With this structure a lid or removable element for opening and closing the compartment for the tape container can be dispensed with.
These and other aspects will become apparent from the following description of a preferred embodiment in connection with the attached drawing. In this drawing:
The dispenser shown in
The space 3 is located above a tray 3a onto which the transport container 2 can be placed. Above the space 3 there is provided a cover member 8 that is articulated to the dispenser housing 20 at a pivot joint 14, which in this embodiment is formed by a cantilever axis 8a, so as to be movable between an open position that is shown in
A support plate 9 is fixedly attached to the lateral side wall of the housing 20 of the dispenser at a position downstream from the space 3 in the transport direction of the tape shown in
The shape and arrangement of the protrusions defining the pinching section is chosen according to the expected size and structure of the envelopes E and objects O in order to guarantee a smooth passing of the objects through the outlet 5 when the cover member is in the closed position.
The cover member 8 has an elongated lever-like shape with the pivot joint 14 at the rearward end portion. Alternative arrangements of the pivot joint 14 are possible and are shown in
The cover member 8 includes a guide surface 17 formed at the top side of the lever facing away from the pinching section 13, for guiding a respective one of the first and second films 10,11 away from the outlet 5 at the forward end when the cover member is in the closed position. Guide features like protrusions or ribs 8c for laterally guiding the films can be provided. Likewise, friction-reducing features or coatings can be provided on the slide surface 17 if desired. A separating edge 15 which is located at the outlet 5, when the cover member 8 is in the closed position, is formed at the forward end of the cover member. The separating edge 15 can be rounded so as to guide the films moving from the pinching zone through the outlet 5 of the separator 4 in the substantially opposite direction to a rear portion of the dispenser to the means for winding up the films. A similar rounded separating edge 9b and a lateral guide protrusion 9a can be formed at the forward end of the counter element 9, too.
An alternative structure for the counter element could be in a form of one or more roller(s) and/or one or more bar-like element(s) protruding from the lateral wall of the housing in a cantilever fashion and arranged such that they cooperate with the pinching section of the cover member to form the pinching zone and outlet of the separator when the cover member is in the closed position.
Further guide elements can be provided at the dispenser to smoothly guide at least one of the first and second films along the bottom side of the space 3 from the separating edge of the counter element 9 as shown in
The separating edge 9b of the counter element 9 can be displaced from the separating edge 15 of the cover member (when the same is in the closed position) in the downstream direction of the tape-conveying or passing direction, which arrangement provides the advantage that the lower film 11, i.e. the base paper, is supported for a longer distance than the upper film 10, i.e. the plastic foil, so that the object O, e.g. a sterile membrane, remains supported until a user grips the membrane with forceps (see
The drive unit for rotating the receiver element(s) could be, for example, a servo motor that can be arranged in the housing 20 or can be even integrated into the axis body of the respective receiver element. If a server motor is used, no mechanical transmission may be required.
To control the operation of the drive unit a control means is provided in the dispenser that can selectively activate rotation of the receiver element(s) for every rotation amount corresponding to a predetermined pitch of the envelopes E of the tape-like packaging. Such control means may comprise a sensor arrangement 18a,18b (see
One example of such a sensor arrangement is an optical sensor 18a and an optical sender or light source 18b (i.e. an LED) which are either integrated into a unit or located in a distance and provided in the counter element 9 as shown in
Alternatively, or in addition, the control means may include a timing circuit for limiting an operating time of the drive unit following its activation by a sensor or a switching element. This function may be implemented in order to secure the system and to avoid an unintended continuous opening of envelopes. If the pitch is known, the operating time of the drive unit for opening each envelope may be predefined or may be altered and adapted so that the operation of the drive unit for a certain time period with a known speed produces exactly the winding amount necessary for conveying the tape by one pitch and opening only a single individual envelope during each operation cycle. The control means may account for the increase in diameter of the film coil(s) wound onto the receiver element(s) which leads to an increased pulling length, the larger the diameter becomes. To compensate, the operating time can be successively reduced.
In addition, the control means can be provided with a function that gives the user the possibility to set and finely adjust the starting position of the tape-like packaging 1 for the purpose of adjusting an output position for the objects at the outlet of the separator. This can be done, for example, by providing a potentiometer through which the receiver element(s) can be finely rotated forward or reward to adjust the output distance of the object (i.e. a membrane). If the receiver element(s) is/are finely rotated to pull the tape when the cover element is closed, adjustment will be directly visible, if it is rotated in reverse, the adjustment will be visible at the end of the next operation cycle. A scale can be provided at the cover member and/or the counter element to indicate the advancing/retracting rate of the objects. Further, a transparent window can be provided in the cover member to allow viewing of the tape in the pinching zone for that purpose.
To activate the drive unit the control means is cooperating with a switching element, i.e. 21, a front face of the housing 20 as shown in
In the following, the typical operation for loading a tape-like packaging into the dispenser of the invention will be described. The
At the beginning, the transport container 2, preferably a disposable box of card board or paper, holding the tape-like packaging as known in the art is placed on the tray 3a in the space 3 at the side of the dispenser. Then, the tape 1 is pulled out of its container for a certain length sufficient to place the tape onto the support plate (i.e. the counter element 9) (see
In the next step that is shown in
In the next step, depending on the tape-like packaging, the user has to manually peel the first envelopes of the tape in order to manually separate the first and second films 10,11 of the tape (e.g. a plastic film on the top and a paper base film on the bottom) for a certain length and this initial film length will be used to attach the films to the winding means. For this purpose the user may pull the films over the top surface of the closed cover and below the space, i.e. below the tray 3a, and attach them to the single or two separate receiver elements 6,7. Alternatively, a tape-like packaging may be provided with a starting length of unconnected films without envelopes, which modification facilitates the loading of the tape into the dispenser.
To operate the dispenser, a request is input through the switching element 21 as described above and the motor of the drive unit is driven for a predefined length of time so that the films are wound onto the winding means, which causes the tape to be withdrawn from the container and through the separator either for a predetermined distance or until the mark on the tape is detected by the sensor arrangement in the pinching zone. Then, the drive unit is stopped through the control means to cease the rotation of the receiver element(s) until the object (i.e. a sterile membrane) is taken off from the grasping position and until the next cycle is initiated. The same sequence is repeated for each cycle and each cycle consequently delivers one object from an envelope at the outlet of the separator.
During the pulling of the tape the two films are laterally held in place and guided by the protrusions or shoulders 8c on the top surface 17 of the cover member 8 and at the lower portion of the tray 3a and the tape is pinched between the counter element 9 and the cover member 8 by the protrusions of the pinching section of the cover member.
To hold the cover member in place in the closed position mechanical locking means may be provided either at a suitable position along the cover member or within the axis of the hinge.
To remove the spent container from the dispenser the cover member is opened and pivoted to the opened position. Then, the empty container is accessible at the space and can be removed. The coil(s) wound up films is/are removed from the one or two receiver element(s) in a manner known as such in the art.
Number | Date | Country | Kind |
---|---|---|---|
12290311 | Sep 2012 | EP | regional |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2013/002537 | 8/22/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2014/044349 | 3/27/2014 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5448874 | Lemonnier | Sep 1995 | A |
6213342 | Kinberg | Apr 2001 | B1 |
6379291 | Wild et al. | Apr 2002 | B1 |
6591586 | Pape | Jul 2003 | B1 |
6962266 | Morgan | Nov 2005 | B2 |
7905976 | Ogawa | Mar 2011 | B2 |
8833537 | Kashiwabuchi | Sep 2014 | B2 |
20090120578 | Ogawa | May 2009 | A1 |
20130291791 | Tanaka | Nov 2013 | A1 |
Number | Date | Country |
---|---|---|
1243783 | Feb 2000 | CN |
1298357 | Jun 2001 | CN |
29805100 | Jun 1998 | DE |
0585145 | Mar 1994 | EP |
06-340368 | Dec 1994 | JP |
2006-123923 | May 2006 | JP |
Entry |
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International Search Report from PCT Application No. PCT/EP2013/002537 dated Nov. 29, 2013. |
English translation of CN1298357A published Jun. 6, 2001,10 pages. |
English translation of CN1243783A published Feb. 9, 2000,10 pages. |
Japanese Office Action dated Apr. 17, 2017 issued in corresponding JP 2015-532316 application (2 pages). |
English Abstract of JP 2006-123923 A published May 18, 2006. |
Number | Date | Country | |
---|---|---|---|
20150246573 A1 | Sep 2015 | US |