Electrochrome glazing

Optical: systems and elements – Optical modulator – Light wave temporal modulation

Reexamination Certificate

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Details

C359S269000, C359S288000, C359S241000, C428S620000

Reexamination Certificate

active

06369935

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention concerns an electrochromic glazing, with an electrochromic pane unit and at least one other pane, which are joined to one another in the edge area by means of a spacer frame, forming an interspace, and with a temperature sensor for detection of the temperature of the electrochromic pane unit.
2. Summary of the Related Art
Such a glazing is known from EP 0 475 847 B1. Here the temperature sensor consists of a thermometer which is arranged so as to be in contact with one of the panes of the electrochromic pane unit. According to this publication, it is preferred to measure the temperature on the side of the electrochromic pane unit facing towards the interior of the glazed building, which is not exposed directly to the solar radiation.
Examples of the construction of electrochromic pane units are described in WO 95/31746. Generally, the first glass pane is provided with a transparent conductive layer which consists, for example, of doped tin oxide, indium-tin oxide or the like. On this conductive layer is arranged an electrochromic layer, which consists preferably of tungsten oxide (WO
x
).
Opposite to this first electrochromic layer is a second electrochromic layer, for example of cerium-titanium oxide, vanadium-titanium oxide or the like, constituting a counter-electrode or ion storage layer, which is applied to a second conductive layer of a second glass pane. Between the electrochromic layers is located an ion conductor, in particular a polymer electrolyte, so that the electrochromic pane unit assumes the form of a laminated pane.
The temperature of the electrochromic pane unit will, particularly when using polymer electrolytes whose ion resistance may depend to a significant extent on temperature, be required as control parameter for the control of the electrochromic pane unit. Depending upon the application of the electrochromic glazing, it can be exposed to wide temperature fluctuations, frequently with brief temperature peaks on partial areas of the electrochromic glazing. With high temperatures, there is a danger that the voltages present at the electrochromic layers become excessively high, so that irreversible processes are caused and the electrochromic glazing is permanently damaged. In order to prevent this, the control voltage applied to the conductive layers of the electrochromic pane unit must be suitably modified according to temperature if a service life of the electrochromic pane unit acceptable for practical purposes is to be reached. Further details in this respect are described in DE 197 06 918 A1.
OBJECT OF THE INVENTION
It is he object of the present invention to assist control of an electrochromic glazing unit by optimizing the location of the temperature sensor for temperature detecting.
This object is solved by an electrochromic glazing in accordance with claim 1. Advantageous configurations are the subject of the subclaims.
According to the invention, provision is made for arranging the temperature sensor in the region of the spacer frame, between the electrochromic pane unit and the other pane.
The arrangement according to the invention is achieved on the one hand by the temperature sensor for its part possessing close heat transfer contact with the spacer frame, and on the other hand being arranged outside the field of vision for normal observers of the glazing. “In the region of the spacer frame” includes all arrangements where the temperature sensor is arranged on or in the spacer frame, or in the bond of the spacer frame to the panes of the glazing formed by adhesives or sealants, so that satisfactory heat transfer contact is ensured with the thermal bridge in the edge area of the glazing formed of these elements. Direct contact of the temperature sensor with the spacer frame which permits heat transfer by thermal conduction is preferable. It has been found however that adequate heat transfer can also be ensured by convection or thermal radiation if the temperature sensor is at a distance of not more than approximately 5 mm, better 2 mm, and preferably less than 1 mm from the spacer frame or from the bond.
Surprisingly, it has been found that for reliable functioning of the control system, it is not necessarily the pane temperature actually present in the electrochromic pane unit, if necessary averaged over the surface, that must be measured, but that a measured value which correlates satisfactorily with the pane temperature over a wide temperature range from approximately 20° C. to ±100° C. will suffice. For the invention, the fact is taken advantage of that the spacer frame region representing a thermal bridge between the panes of a double-glazing unit is especially suitable for arrangement of a temperature sensor. For this thermal bridge it is true to say that, in comparison with other areas of the glazing unit with less favorable thermal conduction properties, a relatively stable heat flow generally prevails. Even brief temperature peaks on partial areas of the electrochromic pane unit can surprisingly be detected comparatively reliably with a temperature sensor arranged according to the invention.
According to an advantageous embodiment, the temperature sensor is embedded at least partially in adhesive or sealant. In this way, it is invisible to the normal observer and not exposed to direct solar radiation. Furthermore, the temperature sensor is thereby secured when installed and is protected from mechanical stresses and also from corrosion. For example, the temperature sensor can be embedded in the polyisobutylene-base butyl sealant usually located between the locating walls of the spacer frame and the insides of the panes. The temperature sensor can also however be embedded in the double-glazing adhesive of polysulfide, silicone, polyurethane or the like inserted between the pane edges, which stabilizes the double-glazing mechanically. Being embedded in adhesive further improves the heat transfer from the electrochromic pane unit to the temperature sensor, which in turn improves accuracy of measurement.
Preferably, the temperature sensor is arranged directly on the surface of the inner pane of the electrochromic pane unit facing towards the interspace, but still close enough to the spacer frame for satisfactory heat transfer contact with the spacer frame to exist by means of thermal conduction, thermal radiation or convection.
Basically, within the scope of the invention, the temperature sensor should not be arranged on the pane within the field of vision of a normal observer. The temperature sensor is appropriately located on the side of the spacer frame facing towards the electrochromic pane unit.
Preferably, the spacer frame in the locating wall for the pane unit possesses a recess in which the temperature sensor is arranged. This recess can be delimited locally, but can also extend along the entire frame length. The recess is preferably curved. Other geometrical forms, for example those matched to the shape of the temperature sensor, are also possible. The provision of a recess has the effect that the temperature sensor is protected and can be accommodated in a definite place, that is to say according to profile geometry and dimensions of the temperature sensor, closer to the interspace and thus closer to the exposed area of the glazing than would be possible without such a recess.
Provision can also be made for the temperature sensor to be arranged inside the spacer frame, in particular in a desiccant cavity formed in the spacer frame. Another preferred embodiment consists of arranging the temperature sensor on the side of the inner wall of the spacer frame facing towards the interspace.
Special profile geometrical forms permit further alternatives for arrangement of the temperature sensor. Known spacer frame profiles incorporate in the locating wall towards the insides of the panes an angled section which faces away from the contiguous pane. The temperature sensor is arranged preferably between this section and the electrochromic pane unit.
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