The present invention relates to a display panel comprising a first substrate and a second substrate being separated from each other by spacers.
The present invention further relates to a method of manufacturing a display panel.
Display panels, e.g. display panels of the Liquid Crystal Display type (LCD-displays), are commonly used as computer displays, TV screens etc. An LCD-display has a first substrate and a second substrate confining between them a liquid crystalline material. Each of the substrates is provided with electrodes arranged to form pixels. By controlling the voltage supplied to the electrodes it is possible to control the orientation of the liquid crystals and thus control the light transmittance through the pixels of the display panel.
In recent time it has become more interesting to use displays in new applications and in other environments than the traditional office or living room environments. U.S. Pat. No. 6,507,385 to Nishiyama et al discloses an LCD-display having a reduced sensitivity to varying ambient temperatures. The display panel disclosed by Nishiyama is, however, not very suitable for applications where the display panel is to be put on a articles of clothing or for outdoor use.
An object of the present invention is to provide a display panel which decreases or eliminates the drawbacks of the prior art display panels and thus to provide a display panel which is suitable for different kinds of environmental conditions. This object is achieved with a display panel comprising a first substrate and a second substrate being separated from each other by spacers and sealing between them a space, at least one of the spacers being penetrated by a hole extending therethrough and through both of the substrates to form a through hole through the display panel, said at least one of the spacers and the substrates forming the wall of said through hole and sealing the space from the through hole.
The display panel according to the invention has the advantage that it is permeable to gases and/or liquids. Thus it could be applied to an article of clothing, such as a shirt or a sweater. Since the display panel is permeable to gases the panel will not cause, or at least reduce, problems of sweating for the user. In other applications, such as road signs, advertising signs etc. the display panel will reduce the amount of wind caught be panel, reduce the amount of water collected on the panel and/or make washing easier.
An advantage with the measure according to claim 2 is that the image displayed on the display panel is not distorted by the spacers and/or the through holes when each spacer having a trough hole is located outside the pixel area.
An advantage of the measure according to claim 3 is that the permeability to gases and/or liquids of the display panel is evenly distributed over the surface of the panel when the through holes are distributed over the surface of the display panel. This has particular advantages in cases were the gas and/or liquid that is to permeate the display panel is emitted from a surface, such as is the case with sweat emitted from a human body. Also in cases of reducing the amount of wind caught by the display panel it is an advantage that the through holes are evenly distributed over the surface of the panel.
An advantage of the measure according to claim 4 is that the display panel will become more attractive and that the through holes are turned into a design element. The spacers could be made of a colored or fluorescent material to obtain decorative effects.
An advantage of the measure according to claim 6 is that a flexible or bendable display panel is suitable for application to a surface which is not completely plane or which could be expected to change shape during use, such as is the case with a display panel attached to a wearable product, such as a piece of clothing.
An advantage of the measure according to claim 8 is that the display panel is particularly suitable for integrating in wearable products since problems related to the “breathing” of the wearable product is avoided, or at least decreased, by the holes extending through the display panel.
An other object of the present invention is to provide a method of making a display panel which decreases or eliminates the drawbacks of the prior art display panels and thus to provide a method of manufacturing a display panel which is suitable for different kinds of environmental conditions. This object is achieved with a method of manufacturing a display panel, the method comprising the steps of
providing spacers on one side of a first substrate,
providing a second substrate on said one side of the first substrate such that the spacers hold the first and the second substrates separated from each other,
forming a hole through at least one of the spacers and both of the substrates such that said at least one of the spacers and the substrates form the wall of the through hole, and
sealing a space between the substrates and the spacers.
An advantage with this method is that it provides an efficient way of manufacturing display panels that are permeable to gases and/or liquids.
An advantage of the measure according to claim 10 is that the through holes can be made with a higher precision and also in very small sized spacers if they are made after the two substrates have been put together. In particular the forming of the through hole through the substrates and the spacer in one single moment provides for low costs of manufacturing and high accuracy of the through holes.
An advantage of the measure according to claim 11 is that the liquid crystalline material is not subjected to any heat and mechanical strains that may occur during the step of forming the through hole or holes.
An advantage of the measure according to claim 12 is that, in cases where the through holes are formed by drilling or another dust generating method, the contamination of the liquid crystal material by dust is avoided by sealing the liquid crystal material between the substrates before forming the through hole.
An advantage of the measure according to claim 13 is that the methods mentioned are efficient in forming through holes without causing damage to the spacer and/or the substrates. In particular it is important that the spacer, after forming the through hole, forms unbroken walls of the through hole such that the space is properly sealed from the environment to avoid that liquid crystalline material or gas leaks out from the display panel or that air enters the space as the case may be for the display panel type in question.
An advantage of the measure according to claim 14 is that the efficient forming of very small spacers are enabled. For a display panel that is to display rather small objects, i.e. a display panel in the same dimension as a lap top computer display, and which is permeable to gases the spacers must be small not to interfere with the image that is to be displayed. By forming the spacers by ink jet printing it is possible to control the location of the spacers, which is an advantage when the spacers, preferably in a subsequent step, are to the perforated to form through holes.
An advantage of the measure according to claim 15 is that the forming of small spacers with defined positions on a substrate in one sequence is enabled. As mentioned above, the defined location of the spacers is an advantage when forming through holes in the spacers.
These and other aspects of the invention will be apparent from and elucidated with reference to the embodiments described hereafter.
The invention will now be described in more detail and with reference to the appended drawings in which:
The spacer 4, which could be made of an acrylic polymer material or another suitable material, could be provided with a color pigment or a fluorescent pigment to provide an attractive visual appearance of the display panel 1.
The first substrate 2 is provided with a first set of light-transmissive electrodes 8, which could made from ITO (Indium Tin Oxide) or another suitable material. The second substrate 3 is provided with a second set of light-transmissive electrodes 9, which also could be made of ITO. The space 7 between the electrodes is filled with a liquid crystalline material 10, based on the twisted nematic (TN), the supertwisted nematic (STN) or the ferroelectric effect so as to modulate the direction of polarization of incident light. The sets of electrodes 8, 9 define between them a matrix of pixels 11. By controlling the voltage over each pixel 11 it is possible to display a desired image on the display panel 1.
As is indicated in
The display panel 1 shown in
It is understood that the display panel 1 additionally could be provided with control means, one or more polarizers, light sources and other devices, that are not shown in
Finally, in step (g), through holes 5 are drilled through each spacer 4 and the substrates 2, 3. The through holes 5 may be made by stamping, mechanical drilling, laser drilling, powder blasting, water jetting or any other method suitable for making through holes in the substrates 2, 3 and the spacers 4. The through holes 5 preferably extend in a direction being substantially perpendicular to the substrates 2, 3, i.e. perpendicular to a viewing surface 18, being the surface on which the displayed image is to be viewed, of the thus formed display panel 1. It will be appreciated that each through hole 5 is preferably made in the center of the respective spacer 4 such that the wall 6 of the hole 5 will provide proper sealing of the space 7 formed between the substrates 2, 3 from the surroundings. Thus the contact area between the respective spacer 4 and the first substrate 2 and the contact area between the respective spacer 4 and the second substrate 3, before forming the hole 5, both need to be larger than the area of the hole 5 to provide proper sealing of the hole 5 from the space 7. After forming the through holes 5 a liquid crystalline material (not shown in
The second through holes 215 are located around the periphery of the display panel 200. The second through holes 215, which may also be formed according to one of the methods described above and each of which extend through a respective spacer and two substrates, have a diameter of about 1 mm. The purpose of the second through holes 215 is to form holes for a thread that is used for sewing the display panel 200 on the sweater.
It will be appreciated that numerous modifications of the embodiments described above are possible within the scope of the appended claims.
Thus, for example, the diameter of the through holes could be varied in accordance with the application of the display panel. Thus display panels intended for use on pieces of clothing could be provided with through holes having a diameter of about 1-500 micrometers for the purpose of allowing sweat in the form of vapor to permeate through the display panel. Display panels used as road signs or advertising signs could be provided with through holes having a diameter of about 0,5-50 mm for the purpose of providing drainage of water, making cleaning easier and reducing the amount of wind caught by the display panel.
Above it is described that the through holes are formed after the second substrate has been attached to the spacers attached to the first substrate. It is of course also possible to form holes in the substrates and in the spacers before they are put together and put them together in such a manner that the holes of the first and second substrates are aligned with the holes in the spacers such that through holes having sealed walls are formed after assembly of the spacers and substrates. However, in particular when forming very small through holes, such as through holes with a diameter of less than about 0,5 mm, it is an advantage to attach the substrates to the spacer first and then form the through holes through the substrates and the respective spacer in one operation to ensure a proper aligmuent of the through holes through the spacers.
With reference to
In an alternative embodiment of the method described with reference to
As indicated above different materials may be used both for the spacers and for the substrates. Thus the substrates may be made of glass or even steel in the case of rigid display panels and could be made of plastic materials in the case a flexible display panel is desired.
The embodiments described above refer to liquid crystal display panels. The invention is however also applicable for other display panels where a permeation of gases or liquids through the display panel is desired and where it is required to seal a space, which may be filled with liquid crystal material, or a noble gas, or is evacuated, from the surroundings. Examples of such displays are the above mentioned liquid crystal displays, field emission displays, electro-wetting displays, foil displays, polyled displays, fluorescent displays, touch screen or pressure-sensitive displays, and other types of display panels.
Above it is described that the through holes have a circular cross section. It will be appreciated that the through holes could have other cross sections, such as square and oval cross section. It is also possible to form through holes having the cross section of an elongated slot.
To summarize a display panel 1 has a first substrate 2 and a second substrate 3. The substrates 2, 3 are provided with electrodes 8, 9 and are separated from each other by a plurality of spacers 4. Holes 5 extend through the spacers 4 and the substrates 2, 3 and thus form through holes 5 extending through the display panel 1 making it permeable to gases and/or liquids. The substrates 2, 3 and the spacer 4 form the wall 6 of the respective through hole 5 and thus a space 7 can be sealed between the two substrates 2, 3 without any risk of leakage.
The invention is not restricted to the described embodiments. It can be altered in different ways within the scope of the appended claims.
Number | Date | Country | Kind |
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04101094.3 | Mar 2004 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB05/50835 | 3/7/2005 | WO | 9/12/2006 |