The present invention relates to a device and a method for successively changing elongated sheets or similar flexible objects from an active viewable position to a non-active, non-viewable position, said device comprising a rotatable drum to which the flexible objects are attached, a motor arranged for driving the rotatable drum in two opposing rotational directions, and a controller unit for controlling the rotational speed and direction of the motor.
In the commercial world of today more and more advertising is made. Stores are using advertisement posters to communicate their messages to the public. However, space is sometimes a limiting factor when it comes to exposing posters. To solve this problem it is known to use devices, which are capable of changing posters, by for instance rotating an “endless” belt or band consisting of many individual posters through a cylinder arrangement. In this fashion one surface may be used to display several different messages or advertisements.
However many of the known devices are usually complicated to handle, because of their complex design. For instance it might take a long time and be complicated to change a set of posters for new ones. The complexity with many different parts also contributes to the high cost for such devices.
One improved device is described in EP 883 875. This device comprises a drum on which different posters can be wound up and unwound. The posters are attached to the drum with the same distance therein between and by rotating the drum in a certain way and in different directions it is possible to show one poster at a time. A mechanical circuit controls the timing of the drums rotation, even if it is mentioned that it would be possible to use an electrical circuit. However, it is not further described how the electrical circuit could be realised. The mechanical circuit is complex and consists of a lot of different parts. One other aspect of the mechanical circuit is that it is noisy and different timing aspects have to be set in a mechanical way, which make it limited when it comes to set different time intervals.
A drawback with the device according to EP 883 875 is that it requires a strong motor when the posters or any other flexible objects become large and thereby heavy. Thus, it is important with a sufficient power supply. A large motor is of course also noisier than a small one.
One object of the present invention is to provide a device for changing elongated flexible objects, which is much more energy efficient, silent, user friendly and reliable than today's devices.
The above object is according to the present invention solved by that the drum of the device comprises a balancing spring that is arranged to be preloaded during the unwinding of the flexible objects and providing a lifting force when the flexible objects are wound up whilst still allowing the device to retain the functionality of previous devices.
The present invention also describes a method for user-friendly attachment of the flexible objects as well as a method for self-calibration.
The present invention will now be described in more detail in relation to the enclosed drawings, in which:
The embodiment of the present invention will now be described. First of all the parts comprising the device will be described as depicted in the partly cross sectional view of
The device comprises a drum 1 with rotational freedom between two end holding means 2, 3, preferably in the shape of discs. At each end the drum 1 is fitted with end covers 6 and 7 respectively. From a first end holding means 2 a motor holding bar 10 protrudes through the end cover 6. A motor 11 for rotating the drum 1 of the device is provided inside the drum 1 and is held in place by the motor holding bar 10. A controller unit 13 for controlling the speed and direction of the motor 11 as well as other aspects of the operation of the device is mounted on the motor holding bar 10. The motor 11 exerts its torque to the drum 1 via a driving disc 14. An output shaft 12 from the motor 11 is connected to the driving disc 14 in such a way that when the shaft 12 rotates the driving disc 14 also rotates. At the opposite end of the drum 1 a journal 15 protrudes from a second end holding means 3 through the end cover 7. The journal 15 is rigidly connected to the second end holding means 3. A freewheeling clutch 17 is provided towards the end of the journal 15. A balancing spring 16 is connected to the end cover 7 at one end and to the freewheeling clutch 17 at the other end.
The motor holding bar 10 and the first end holding means 2 are fixed connected and may be produced as a single part, e.g. welded. The same applies to the second end holding means 3, which may be combined with the journal 15 into a single part. In order to minimize friction as the drum 1 rotates bearings 8 and 9 are housed in the end covers 6 and 7. The end holding means 2 and 3 must not be allowed to rotate more than a small distance with reference to each other and may therefore be directly locked to each other or even produced as a single part.
Protruding from the first end holding means 2 is a girder 18 containing a magnet 19 and identifying means 20.
Suspension means 4 and 5, e.g. in the shape of hooks, may be added to the device in order to facilitate installation from ceiling, wall or a particular stand. The suspension means 4 and 5 engage the holding means 2 and 3. In order to use the device for its main purpose, flexible elongated objects 100-400, referred to as posters, are attached to the drum 1, as depicted in
The principle of operation will be described below.
In order to describe the new functionality introduced by the present invention it is necessary to summarize the main function of changing and displaying posters. This function is in itself not unique to the present invention and can be found in the existing invention, EP 883 875. However the additional new functionality added by the present invention is clearly described below.
According to
It should be noted that even though the motion consists of both clockwise and counterclockwise rotation the total sum of all rotation has to be counterclockwise with reference to
Below the function of the balancing spring assembly is described in detail. In order to wind up the posters 100-400 it is necessary that the motor 11 driving the system produces a lifting force to overcome the weight of the poster 100-400. By introducing a spring 16 that is connected to the drum 1, via the end cover 7, at one end and to the journal 15, via the freewheeling clutch 17, at the other end it is possible to preload the device in such a way that the force of the spring 16 balances the weight of the posters 100-400 to a high degree. The spring 16 is therefore referred to as a balancing spring. When the posters 100-400 are completely wound up the balancing spring 16 is not loaded at all, i.e. has no inherent load. As the posters 100-400 are wound down the balancing spring 16 is spun and thereby continuously gets preloaded enough to balance the weight of the posters 100-400. Similarly as the posters 100-400 are wound up the balancing spring 16 continues to provide this lifting force.
This means that instead of having to lift the entire weight of the objects the motor only has to provide enough force for acceleration. Thereby the physical requirements of the motor are reduced significantly, indirectly reducing noise and power consumption as well.
The balancing spring 16 is fixed connected to the drum 1 via end cover 7. At the start of winding down a poster the balancing spring 16 is supposed to provide no lifting force. This also has to comply with the inherent function of the device to successively rotate the drum 1 slightly more counterclockwise than clockwise for every poster changed. Therefore the balancing spring 16 is connected via a freewheeling clutch 17 to the journal 15. This allows the balancing spring, end cover, drum-package to freewheel counterclockwise without preloading the balancing spring 16 whereas clockwise rotation is clutched meaning that the balancing spring 16 is preloaded. In this way the device is allowed continuous counterclockwise motion whilst still benefiting from having the weight of the posters 100-400 balanced. In
In
If the balancing spring 16 was directly fixed to both the journal 15 and drum 1, i.e. no freewheeling clutch was present, it would in order to comply with the incremental counterclockwise rotation be increasingly preloaded in the wrong direction and the device would eventually either break down from destroying the balancing spring 16 or stall due to insufficient motor torque.
In
In order to accomplish the proper function of the device according to the preferred embodiment described earlier we may define the degrees of freedom of the internal parts as follows.
The function of the magnet assembly will be described below.
In order to successively change the posters 100-400 in a correct manner it is of utmost importance that the reversal of the rotation of the drum 1 occurs at the right position according to
According to the function of the device, as the end of the poster to be exposed reaches the position on the drum 1 where it will fall over, the rotational direction of the drum 1 is reversed in order to expose this poster. It is necessary that this reversal occurs at a specific point in order to guarantee the function of the device. If the reversal is performed too early the next poster will not fall over and be exposed. If the reversal is too late there is a risk that the succeeding poster will also fall over, compromising the function of the device. The device therefore needs to be calibrated with the posters. The calibration signal can also be used by the controller unit 13 to determine whether the device is functioning properly and take care of any such detected problems should they arise.
One such means of calibration is depicted in
As the drum 1 is turning counterclockwise/CCW winding up the posters it will stretch the end of the poster 100 as the identification strip 110 is held back by the magnet 19. Eventually the poster 100 cannot be stretched any further and is released from the magnet 19 as depicted in
Both of the signals mentioned above can be used as information for the controller unit 13 to determine the exact position of the posters. However, preferably the latter signal is used since the disengagement point of the identification strip 110 and the magnet 19 can easily achieve far greater accuracy than the engagement point. This is due to the very controlled nature of a stretched poster compared to the uncontrolled nature of an unstretched poster.
The device will in this way use the signal in order to determine the correct position at which to reverse the direction of the drum 1. Preferably this position is slightly after the identification strip 110 has disengaged the magnet 19 in order to ensure that the identification strip 110 is no longer influenced by the magnet and there is no chance of it being pulled back towards the magnet 19 as the rotation of the drum 1 is reversed.
For the next poster the position of reversal can easily be calculated by the controller unit 13 by adding ⅓, ¼ drum revolution etc. counterclockwise rotation according to the method described earlier. An identification strip 110 is therefore only necessary on one of the posters. It should however be understood that an identification strip can be attached to each and every of the posters e.g. in order to further enhance reliability of the device.
Although the most likely setup is having the identification strip 110 made of a passive material that will interact with the magnetic field of a magnet 19 it is also possible to make an identification strip 110 that is permanently magnetic whereby the magnet 19 can be replaced with a magnetically attractable material, e.g. soft iron. It is also possible to make the entire fabric of a poster or a part of it magnetic by use of special thread or printing ink. Furthermore the magnetic field provided either by the magnet 19 or by the identification strip 110 can be produced by means of an electro magnet having the benefit of being possible to turn on and off.
The advantages given to the device by magnetically attracting the posters towards the identifying means 20 can be summarized as improving the cost-efficiency, accuracy and reliability of calibration. It also has a self-cleaning effect as the identification strip 110 is forced to slide across the surface of the girder 18 thereby keeping surfaces free from corrosion or dust.
A method for attaching the posters to the device will be described below.
The posters 100-400 can be attached to the drum 1 in a variety of ways. In one preferred embodiment of the present invention the posters 100-400 are attached to each other as a separate package as depicted in
Preferably, the posters are attached at the same mutual distance around the drum 1 in order to make it easier to program the controller unit 13 and also enhance the changing of the posters. However, it is also possible to provide the posters at different mutual distances to each other. The posters themselves might also be provided, if necessary, with weights such that the posters always appear in a stretched state.
When using a single identification strip 110 it can be provided on any of the posters 100-400 in order to achieve calibration of the poster position. By placing it on the carrier poster 100 as depicted in
It should be understood that the design of the device can differ from the schematic view of
In the embodiment described above the girder 18 is provided with one magnet 19. However, within the scope of the present invention it is feasible to have more than one magnet.
Number | Date | Country | Kind |
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1000695 | Jun 2010 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE2011/000124 | 6/28/2011 | WO | 00 | 12/19/2012 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2012/002872 | 1/5/2012 | WO | A |
Number | Name | Date | Kind |
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375987 | Castel | Jan 1888 | A |
1234415 | Swanson | Jul 1917 | A |
2775354 | Staats | Dec 1956 | A |
3771242 | Lagasse et al. | Nov 1973 | A |
4658524 | Jackson et al. | Apr 1987 | A |
20090158627 | Lee | Jun 2009 | A1 |
Number | Date | Country |
---|---|---|
0 751 278 | Jan 1997 | EP |
2003096725 | Apr 2003 | JP |
9732294 | Sep 1997 | WO |
Entry |
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International Search Report, dated Oct. 13, 2011, from corresponding PCT application. |
Number | Date | Country | |
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20130086832 A1 | Apr 2013 | US |