FR3091578A1 - ANTI-CONDENSATION AND ANTI-ICING DEVICE FOR BLOWING AMBIENT AIR ALONG A SURFACE OR IN THE DIRECTION OF A SURFACE - Google Patents

Abstract

AIR BLOWING ANTI-CONDENSATION / ANTI-ICING DEVICE Anti-condensation and anti-icing device (10, 20, 30, 40), intended to blow ambient air along a surface (16, 26, 36, 46) and / or in the direction of said surface, in particular a glazed surface exposed to external climatic conditions, the device comprising: - a fan (11, 21, 31, 41), - a blowing nozzle (12, 22, 32), arranged so as to channel an air flow from the fan, the fan and the nozzle being configured to create an air flow along the surface and / or towards the surface, the speed and rate of the flow d air allowing the temperature of the surface to be maintained above the dew or icing temperature of the ambient air. Figure for the abstract: Fig. 7

Description

Description

Title of the invention: ANTI-CONDENSATION AND ANTI-ICING DEVICE FOR BLOWING AMBIENT AIR

ALONG A SURFACE OR IN THE DIRECTION OF A SURFACE

Technical area

The present invention relates to the field of anti-condensation and / or anti-icing devices, and more particularly the field of devices operating by scanning an air flow on a surface.

The invention relates more particularly to the production of a new type of device blowing ambient air along a surface exposed to external climatic conditions and / or in the direction of this surface, which is by for example a camera lens or telescope, or a motor vehicle window or a camera lens on a vehicle.

The invention also relates to several methods of implementing a device according to the invention.

The preferred applications to date relate to the prevention of the formation of frost or condensation on surfaces subject to external climatic conditions, more particularly on transparent media such as the lenses of cameras or night vision or windshields, side windows and rear windows of motor vehicles.

Although described in connection with these preferred applications, a device according to the invention can also be implemented in any other application requiring the prevention of the formation of frost or condensation on a surface.

By "ambient air" is meant in the context of the invention, the air of the environment, the properties of the ambient air (such as temperature and relative humidity) not being altered. by the device according to the invention or by another device.

By "camera or observation" means an optical device intended to form an image by means of one or more optical lenses. This is, for example, a camera, a camera, for example a camera on board a vehicle, or an astronomical telescope.

"Digital camera" means a camera with a photo sensor for converting optical radiation into an electrical signal.

Prior art

Under certain specific external climatic conditions, especially in the case of a clear and not very windy night, condensation or frost are likely to form on surfaces. Indeed, the absence of cloud and wind implies a significant heat loss by radiation from any surface exposed to outdoor climatic conditions.

More particularly, due to the heat loss from surfaces by radiation, the air temperature in the immediate vicinity of a surface is likely to reach values lower than the temperature of the ambient air. This phenomenon promotes the appearance of condensation or frost on the surface, which is in particular a function of the temperature and the relative humidity of the environment.

[0011] However, the formation of condensation or frost on a surface exposed to external climatic conditions can be undesirable in many situations. For example, defrosting a windshield or other glazing on a motor vehicle, such as side windows, rearview windows, rear glasses and on-board camera lenses, is necessary to provide the driver with adequate visibility. However, the defrosting operation as such can be long and tedious.

In the case of an optical device lens, condensation and frost are likely to greatly affect the quality of the images obtained with the optical device.

There are many defrosting solutions after frost deposit: we can cite as such manual scrapers, liquid or dry chemicals suitable for lowering the freezing point of water, or even the use of a heat source.

There are also preventive solutions aimed at avoiding the deposit of condensation or frost on objects intended to be subjected to external climatic conditions. One of these solutions is the application of anti-icing fluid to a surface, as is the application of a protective element intended to prevent or at least limit the exposure of the surface to external climatic conditions.

In the automotive field, it is known to create an air flow near the inner surface of a windshield by blowing air from the foot of the windshield, the air coming from the circuit. passenger compartment heating after starting the engine. Likewise, it is known to create a flow of air from the heating circuit near the interior surface of the front windows by blowing air from lateral vents.

However, the existing solutions are not entirely satisfactory.

There is therefore a need for an alternative solution for preventing the formation of condensation or frost on a surface, in particular on a glass surface exposed to external climatic conditions in winter climate.

The object of the invention is to at least partially meet this need.

Statement of the invention

To do this, the invention relates to an anti-condensation and anti-icing device, intended to blow ambient air along a surface and / or in the direction of said surface, in particular a glazed surface exposed to external climatic conditions, the device comprising:

- a fan,

- a blowing nozzle arranged so as to channel an air flow from the fan,

The fan and the nozzle being configured to create an ambient air flow along the surface and / or towards the surface, the speed and the flow rate of the air flow making it possible to maintain the temperature of the surface above the dew or icing temperature of the ambient air.

By “blowing nozzle” is meant in the context of the invention, the usual meaning of the term, namely a nozzle or end of a pipe intended to determine the volume and the shape of the air jet coming from the fan that escapes.

In other words, the invention essentially consists of an ambient air blowing device adapted to form a flow of ambient air along a surface and / or towards this surface, in order to avoid or limit the appearance of condensation or frost on a surface subject to external climatic conditions.

The speed and the flow rate of the ambient air flow necessary to obtain this result are a function of the following factors: surface area and shape of the surface, ambient air temperature, surface temperature, relative humidity of the air ambient, local wind speed, heat loss from the surface by radiation.

The heat loss by radiation depends in particular on the form factor between the surface and the sky, as well as the cloud cover.

Advantageously, knowledge of local weather conditions makes it possible to more precisely determine the characteristics (speed, flow) of the ambient air flow necessary for the performance of the anti-icing / anti-condensation functions of the device.

In practice, depending on the relative humidity of the air, and for a clear and not very windy sky, the inventor considers that risks of icing can occur below an outside temperature of 3 to 4 ° C.

Regarding the risk of condensation, there is not really a similar temperature limit.

Thus, one can essentially consider four levels of implementation of the device according to the invention, as follows:

- level 1: activation by the user (driver of photographer vehicle or telescope observer), depending on the empirically estimated risk of icing or condensation;

- level 2: knowledge of local weather information (current or forecast outdoor temperature, cloud cover or clear sky, possibly relative humidity), in order to warn the user of the risk of icing during the night, i.e. 3 to 4 ° C with little of wind and a clear sky, that is to say with a low cloud cover. This warning can be done via a smartphone application or other means of communication. In this case, the device is started at the initiative of the user;

- level 3: measurement of an internal surface temperature, for example in contact with a wall of a motor vehicle roof directly in contact with the exterior, of the exterior ambient temperature as well as the interior ambient temperature of the space concerned, for example in the passenger compartment of the vehicle. All of these measures must make it possible to return to the outside surface temperature of the glazed wall, and therefore to maximum knowledge of the risk of icing of all the glazing in the same space such as that of a vehicle. The device can be started automatically when the risk of icing is proven, for an estimated temperature of the exterior surface of the glass wall below 0 ° C, or controlled by the driver for example from a smartphone application;

- level 4: differentiation of glazing by local measurement of their temperature on the internal face or at depth, by means of physical sensors or cameras / pyrometers, in order to obtain the temperature on the external face by correlation, then switching on of the differentiated device on each glazing, for temperatures below 0 ° C.

It goes without saying that the device comprises a source of electrical power intended to supply the fan electrically. The latter can be either external to the material carrying the surface to be treated, or integrated with this material.

According to one embodiment, the device also includes one or more conduits adapted to guide the flow of air from the fan to the nozzle.

This allows the device to be used in situations where it is impossible or impractical to arrange the fan in the immediate vicinity of the nozzle and the surface to be treated.

Preferably, the speed of the ambient air flow at the outlet of the nozzle is between 0.5 m / s and 10 m / s, preferably being less than 5 m / s.

The speed and the flow rate of the air flow are preferably determined so as to be sufficient to avoid the appearance of condensation or frost on the surface while being minimized in order to optimize the electrical consumption of the device. .

Preferably, the fan of the device has an electrical power of between 0.5 W and 20 W, preferably being less than 10 W, being in particular of the order of 1 W or less than 1 W, depending on the dimensions of the surface to be treated.

According to a particular embodiment, the blowing nozzle has an annular shape with two main faces and a central opening, the nozzle comprising between its two main faces a cavity connected to the fan and opening onto at least one passage arranged on the circumference of the central opening, the at least one passage being intended to channel the air flow emerging from the nozzle.

This embodiment is particularly suitable for arranging the device on the edges of a camera lens.

According to another particular embodiment, the anti-condensation and anti-icing device is intended to blow ambient air along a surface of a lens of a camera and / or in the direction from the surface, the camera comprising a lens protection fixing means such as a mechanism for fixing a cover, the nozzle being configured to be arranged on the means for fixing the protection of the lens.

This advantageously makes it possible to take advantage of the presence of a pre-existing protective fixing means which then forms a support for the blowing nozzle of the device according to the invention.

The invention also relates in another of its aspects to the use of the device which has just been described, the device being arranged so as to blow ambient air along a lens of an apparatus for shooting or observation, such as a camera, a camera or an astronomical telescope, and / or in the direction of said lens.

The invention also relates to the use of the device which has just been described, the device being arranged so as to blow ambient air along a window pane of a motor vehicle and / or in the direction of said window pane , the glazing being in particular a windshield, a side window, a rear window, a rear-view mirror window or a camera lens mounted on the vehicle.

In addition, the invention relates to a process for blowing ambient air along a lens of a digital camera and / or in the direction of said surface, comprising the following steps:

A / determination of the unloading phases of the sensor of the camera, either by a signal from the camera, or according to a periodic signal in phase with the frequency of shooting of the device;

B / implementation of an ambient air blowing along a lens of the camera and / or in the direction of said lens by an anti-condensation and anti-icing device as described above during the sensor discharge phases.

This method allows the implementation of the device according to the invention semi-automatically. In fact, the operation of the camera can be such that the exposure times are compatible with transient operation of the device only during the unloading phases of the sensor from the camera.

In other words, preventing the formation of condensation or frost on the lens of the camera can in some cases be achieved even with transient operation of the anti-condensation and anti-icing device.

It is then advantageous to subject the implementation of the device according to the invention to the sensor unloading phases.

The invention also relates to a process for blowing ambient air along a surface exposed to external climatic conditions and / or in the direction of said surface, in particular a glazed surface, comprising the following steps:

Al / determination of the ambient air temperature;

B 1 / determination of the temperature of the surface and / or of the air in the immediate vicinity of the surface;

Cl / determination of the relative humidity of the ambient air;

Dl / determination of the heat loss by radiation from the surface;

El / determination of the wind speed;

Fl / implementation of the ambient air blowing along the surface and / or towards the surface by an anti-condensation and anti-icing device as described above, as soon as one and / or the other or all of the parameters measured during steps al / to el / a exceeded at least one threshold value representative of a risk of the appearance of frost or of condensation on the surface.

This method makes it possible to implement the anti-condensation and anti-icing device automatically, when the climatic conditions reveal a risk of formation of condensation or frost. The measurement of the parameters of steps al / to el / makes it possible to estimate this risk and to decide whether or not to start the device according to the invention. The device can be triggered automatically by an electronic control unit, such as an intelligent service box (BSI) for a motor vehicle.

When the relative humidity of the ambient air cannot be measured directly, it is possible to use measurements from independent sources or meteorological information websites, or failing to consider a standard threshold value which can be 95%.

Alternatively, the device can also be triggered manually by a user. It is conceivable that the user is warned of the risk of frost forming, for example via a smartphone application taking into account local weather conditions (in particular the outside temperature, cloud cover and relative humidity) .

The risk of frost typically appears at a temperature of 3 ° C to 4 ° C under a clear sky of cloud cover.

The temperature of the surface and / or of the air in the immediate vicinity of the surface can either be measured directly or can be deduced from a measurement of the temperature on one side of the surface which is not exposed to external climatic conditions and an estimate of the heat transfer flux across the surface. Alternatively, a physical, analytical or numerical estimate of the temperature depending on the environmental conditions can be carried out during the design of the object comprising the glass surface.

The invention also relates to a process for blowing ambient air along a window of a motor vehicle and / or in the direction of said window, comprising the following steps:

A2 / determination of the external surface temperature of the roof of the motor vehicle;

B2 / implementation of ambient air blowing along the glazing and / or towards the glazing by an anti-condensation and anti-icing device according to the invention, as soon as the external surface temperature of the roof of the motor vehicle exceeds at least one threshold value representative of a risk of frost appearing on the external surface of the roof.

In the case of a motor vehicle, the roof, that is to say the upper part of the body forming the roof, is the area with the largest form factor and therefore the area where the risk of frost formation is highest. The exterior surface temperature of the roof can be determined from the internal surface temperature of the roof (outside the sound and heat insulation), the outside ambient temperature and the ambient temperature in the passenger compartment of the vehicle.

Thus, it is conceivable that a device according to the invention arranged on a motor vehicle is started automatically when the temperature of the external surface of the roof is less than 0 ° C.

Alternatively, the start-up can be controlled by a user from information received, for example by a smartphone application.

The invention finally relates to a process for blowing ambient air along a plurality of glazings of a motor vehicle and / or in the direction of said glazings, comprising the following steps:

A3 / determination of the temperature of the external surface of each of the glazings;

B3 / implementation of ambient air blowing along a glazing and / or towards a glazing by an anti-condensation and anti-icing device according to the invention, as soon as the external surface temperature d 'a glazing exceeds at least a threshold value representative of a risk of the appearance of frost on the surface.

Thus, local temperature measurements on each window of the motor vehicle for example by physical or infrared sensor can be performed, in order to trigger a device according to the invention for each window independently. Brief description of the drawings

[Fig.l] is a photographic reproduction of a device according to the invention on a camera;

[Fig.2] is a view of the device shown in Figure 1 comparing a lens subjected to air blowing by the device and an untreated lens;

[Fig.3] is an alternative view of the device shown in Figures 1 and 2;

[Fig.4] is another view of the device shown in Figures 1 to 3;

[Fig.5] is a detail view of the untreated lens of Figure 2;

[Fig.6] is a graph comparing the evolution of the temperature of the ambient air, that of the temperature of the air on the surface of a lens subjected to air blowing by a device according to l invention and that of the air temperature at the surface of an untreated lens;

[Fig.7] schematically illustrates an alternative embodiment of a device according to the invention;

[Fig.8] is a photographic reproduction of the embodiment shown in Figure 7;

[Fig.9] is a detailed view of an embodiment of the device according to the invention arranged to blow air along a windshield of a motor vehicle;

[Fig. 10] is a photographic reproduction at a different angle from the device in FIG. 9;

[Fig.11] is an alternative view of the device of Figures 9 and 10;

[Fig. 12] illustrates the effects obtained on a windshield thanks to the invention;

[Fig. 13] shows an alternative embodiment of the invention installed on a motor vehicle windshield;

[Fig. 14] represents another embodiment of the invention, intended for blowing air along a side window of a motor vehicle;

[Fig. 15] is a photographic view of an untreated side window.

detailed description

Throughout the present application, the expression "parietal blowing" designates the ventilation of an air flow along a surface. Thus, a glass surface of generally planar shape is subjected to a parietal blowing when an air flow is generated near this surface, the air flow moving in a plane substantially parallel to the plane of the glass surface.

The inventors have sought to design an anti-condensation and anti-icing device which makes it possible to protect a surface, in particular a glazed surface, from condensation and / or frost liable to form when the surface is subjected to external climatic conditions. adequate.

Thus, they proposed the anti-condensation and anti-icing devices 10, 20, 30, 40 illustrated in FIGS. 1 to 15.

According to a first embodiment which is found in Figures 1 to 4, an anti-condensation and anti-icing device 10 is installed so as to protect from condensation the lens 16 of the objective of the camera 15 .

A temperature sensor 17 is arranged near the surface of the lens 16.

The sensor 17 is not necessary for the device, it makes it possible to obtain the temperature values shown in FIG. 6.

The device 10 includes a fan 11 and a blowing nozzle 12. The nozzle 12 is arranged so as to channel the ambient air flow created by the fan 11 to direct it along the surface of the lens 16. More specifically, the nozzle 12 is arranged between the fan 11 and the surface to be treated.

In the embodiment illustrated in Figures 1 to 4, the nozzle has a section of 1 cm by 8 cm.

[0094] Thus, when the fan 11 is in operation, ambient air is blown along the surface of the lens exposed to the external climatic conditions.

In the example illustrated, the lens 16 of the camera 15 is oriented towards the sky, which promotes heat loss from the lens by radiation.

Thanks to the invention, ventilation of the air in contact with the surface of the lens is ensured. This provides heat exchange, the effect of which is to limit heat loss from the lens surface.

FIG. 2 illustrates the effect obtained by the invention. The device 10 is identical to that of FIG. 1.

The lenses 16, 18 of the camera objective lens were exposed overnight to external climatic conditions, being oriented towards the sky. The anti-condensation and anti-icing device 10 operated continuously during this time.

It is clear from Figure 2 that the lens 16 is protected from the appearance of condensation on its surface, unlike the lens 18 not subjected to a blowing of ambient air.

Figure 3 is a view of the device 10 from a different angle. The blowing nozzle 12 in particular is clearly visible in this figure.

[0101] Figure 4 also shows the device 10, from another angle of view. The fan 11 is visible at the bottom of the nozzle 12. Other types of fans than that shown may be suitable. For example, a miniature centrifugal fan of the type used for cooling electronic components is suitable.

Figure 5 provides a detailed view of the lens 18, the surface of which is clouded by the presence of icing.

The temperature sensors 17 and 19 respectively arranged on the surface of the lenses 16 and 18 made it possible to carry out the temperature measurements represented on the graph in FIG. 6.

This graph shows the evolution over the course of a night of the temperature of the ambient air measured under a shelter (symbolized by the triangles in FIG. 6), that of the temperature of the air at the surface of the lens 16 (symbolized by the circles in FIG. 6) and that of the temperature of the air at the surface of the lens 18 (symbolized by the squares in FIG. 6).

It appears from the measurements carried out that the surface temperature of the lens 16 subjected to an air blowing by a device according to the invention is higher than the surface temperature of the lens 18, not subjected to a blowing of air.

This contributes to the prevention of the formation of condensation or frost on a surface subjected to a parietal air blowing.

An alternative embodiment to this first embodiment is shown in Figures 7 and 8. The blowing nozzle 12 is in this embodiment of annular shape. It comprises an interior cavity opening onto a passage 14 in the form of a slot arranged on the circumference of the interior radius of the nozzle. The nozzle 12 is arranged centered above the lens of the camera 15. Its inner radius is substantially equal to the radius of the lens cover of the camera 15, its outer radius is a few centimeters greater than its radius interior.

The slot provided on the circumference of the inner radius makes it possible to channel an air flow on the objective of the device 15. This air flow circulates from the blower fan 11 through the interior cavity of the nozzle and opens onto the lens out of the slot 14 of the nozzle. As indicated by the arrows in Figure 7, once you reach the center of the annular nozzle, the air flow rises in the opposite direction to that of the lens.

It is possible to envisage, instead of a circular slit along the circumference of the inner radius of the nozzle, a network of separate slits arranged along this circumference, or even a nozzle network by nozzles.

Other shapes than the circular shape, may also be suitable for the central opening of the nozzle 12 on the edges of which the blown air opens.

A box 13, which can be a power supply comprising a battery to make the device autonomous and / or control electronics, is shown in FIG. 7.

Figures 9, 10 and 11 are photographic reproductions of a third embodiment of an anti-icing device 20 according to the invention. The device 20 is arranged so as to blow ambient air along a windshield 26 of a motor vehicle 25. More specifically, the device 20 is arranged under the hood 27 of the vehicle 25.

The device 20 comprises a fan 21 and a blowing nozzle 22 configured to capture and channel the air flow created by the fan 21, in order to allow a parietal blowing of ambient air along the windshield 26. The fan 21 is more particularly visible in FIG. 11.

In the embodiment of Figures 9 and 10, the ambient air is drawn from the space located under the engine hood. If the engine compartment is hot, this favors the anti-icing function of the device 20.

A device 20 according to the invention can also be integrated into the windshield bay, or into the air inlet of the heating or air conditioning system of the passenger compartment of the vehicle.

It is conceivable that the fan 21 is the fan of the vehicle heating system, in which case an air duct is arranged so as to direct the air blown by the fan towards the nozzle 22.

FIG. 12 shows the anti-icing effect of the device 20 on the windshield 26, subjected to a blowing of parietal air during the night. The result obtained by the invention is clearly visible in Figure 12: no deposit of frost is observed on the windshield part 26a.

An alternative embodiment 30 of the anti-condensation and anti-icing device according to the invention is illustrated in FIG. 13. The device 30 according to this embodiment is arranged so as to perform a parietal blowing of ambient air along d 'a windshield 36 of a motor vehicle 35 subject to external climatic conditions.

The device 30 comprises a fan 31 and a blowing nozzle 32. The nozzle 32 takes the form of a cylindrical pipe comprising a rectilinear slot oriented towards the surface of the windshield 36. The fan 31 is configured to blow ambient air in nozzle 32.

FIG. 13 illustrates the difference in terms of frost formation between a part of windshield 36a subjected to a parietal blowing by the device 30 and a part of windshield 36b not subjected to such treatment. In particular, there is no frost on the windshield part 36a.

A fourth embodiment of an anti-condensation and anti-icing device 40 according to the invention is shown in Figure 14. The device 40 is arranged to blow ambient air towards a side window 37 of the motor vehicle 35.

The device 40 includes a fan 41 arranged so that the air flow created by the fan 41 impacts the side glazing 37. In other words, the air flow is directed towards the lateral glazing 37.

It is also conceivable to arrange a blowing nozzle on the periphery of the mirror 42 or on an edge of the mirror 42. In this case, the fan 41 can be directly integrated into the mirror. It can also be arranged under the engine hood, an air intake duct bringing the air blown by the fan to the blowing nozzle of the mirror.

The fan 41, when it is arranged under the engine hood, is advantageously a fan which can also supply an anti-icing device oriented towards the windshield.

Alternatively, the fan 41 can be the fan of the vehicle heating system.

Figure 15 shows for comparison a side window 37b of the motor vehicle 35 of Figure 14. The side window 37b has not been subjected to an impacting blow of ambient air, unlike the window 37. It appears clearly that the glazing 37 does not undergo frost formation, unlike the glazing 37b.

Other variants and improvements can be provided without departing from the scope of the invention.

Claims (1)

Claims [Claim 1] Anti-condensation and anti-icing device (10, 20, 30, 40), intended to blow ambient air along a surface (16, 26, 36, 46) and / or in the direction of said surface, in particular a glazed surface exposed to external climatic conditions, the device comprising: - a fan (11, 21, 31, 41), - a blowing nozzle (12, 22, 32), arranged so as to channel a flow of air from the fan, the fan and the nozzle being configured to create an air flow along the surface and / or towards the surface, the speed and the flow of the air flow making it possible to maintain the temperature of the surface above ambient air dew or icing temperature. [Claim 2] Device according to claim 1, comprising one or more conduits adapted to guide the air flow from the fan to the nozzle. [Claim 3] Device according to one of the preceding claims, the speed of the ambient air flow leaving the nozzle being between 0.5 m / s and 10 m / s, and preferably being less than 5 m / s. [Claim 4] Device according to one of the preceding claims, the fan having an electrical power of between 0.5 W and 20 W, being preferably less than 10 W, being in particular of the order of 1 W or less than 1 W. [Claim 5] Device according to one of the preceding claims, the blowing nozzle having an annular shape with two main faces and a central opening, the nozzle comprising between its two main faces a cavity connected to the fan and opening onto at least one passage (14) arranged on the circumference of the central opening, the at least one passage being intended to channel the air flow emerging from the nozzle. [Claim 6] Device according to one of the preceding claims, intended for blowing ambient air along a surface of a lens of a camera and / or in the direction of said surface, the camera view comprising a means for fixing a protection of the lens such as a mechanism for fixing a cover, the nozzle being configured to be arranged on the means for fixing the protection of the lens. [Claim 7] Use of a device according to one of the preceding claims, the device being arranged to blow ambient air along a lens of a photographic or observation device, such as a camera, a camera or a telescope, and / or towards the lens. [Claim 8] Use of a device according to one of claims 1 to 4, the device being arranged so as to blow ambient air along a window of a motor vehicle and / or in the direction of said window, the window being in particular a windshield, a side window, a rear window, a rear-view mirror window or a camera lens mounted on the vehicle. [Claim 9] Method for blowing ambient air along a lens of a digital camera and / or towards said lens, comprising the following steps: a / determination of the phases of discharge of the sensor from the camera, either by a signal from the camera, or according to a periodic signal in phase with the frequency of the camera device; b / implementation of an ambient air blowing along the lens of the camera and / or in the direction of said lens by an anti-condensation and anti-icing device according to one of claims 1 to 6, during the sensor discharge phases. [Claim 10] Process for blowing ambient air along a surface and / or towards said surface, in particular a glazed surface, comprising the following steps: al / determination of the ambient air temperature; bl / determination of the air temperature in the immediate vicinity of the surface and / or of the surface temperature; cl / determination of the relative humidity of the ambient air; dl / determination of the heat loss by radiation from the surface; el / determination of wind speed; fl / implementation of the blowing of ambient air along the surface and / or in the direction of the surface by an anti-condensation and anti-icing device according to one of claims 1 to 6, as soon as one and / or the other or all of the parameters measured during steps al / to el / a exceeded at least one threshold value representative of a risk of the appearance of frost or of condensation on the surface. [Claim 11] Method for blowing ambient air along a window of a motor vehicle and / or in the direction of said window, comprising the following steps: a2 / determination of the external surface temperature of the roof of the motor vehicle ; b2 / implementation of ambient air blowing along the glazing and / or towards the glazing by an anti-condensation and anti-icing device according to one of claims 1 to 4, as soon as the external surface temperature of the roof of the roof motor vehicle exceeds at least one threshold value representative of a risk of frost appearing on the external surface of the roof. [Claim 12] A method of blowing ambient air along a plurality of glazings of a motor vehicle and / or in the direction of said glazings, comprising the following steps: a3Z determination of the temperature of the external surface of each glazing; b3 / implementation of ambient air blowing along a glazing and / or towards a glazing by an anti-condensation and anti-icing device according to one of claims 1 to 4, as soon as the surface temperature external glazing exceeds at least a threshold value representative of a risk of frost or condensation on the surface.