FR2583176A1 - Process for manufacturing an electrically heated rear-view mirror and rear-view mirror manufactured according to this process - Google Patents

Abstract

The invention relates to a process for manufacturing an electrically heated rear-view mirror. A layer of conducting paint 4 containing particles of glass fibres and having the desired design for the heating element is stoved on the surface of a glass plate 1, whereas the metallisation constituting the reflecting surface is produced on the surface opposite the glass plate. The heating element is therefore always in contact with the glass, in order to heat the mirror with a low consumption of energy.

Description

 The present invention relates to mirrors in general and, more particularly, to a mirror fitted with an electric heating device.

 Various electrically heated mirrors are known in the art, the heater serving to prevent the reflective surface of the mirror from blurring under the effect of moisture, mist, fog and / or icing of the mirror during daylight hours. more intense cold.

 Typically, the mirrors are electrically heated by resistant heating elements formed of copper, nickel chrome and other alloys, which are interposed between films of a flexible plastic material which is provided with an adhesive serving to fix the 'heating element to the glass of the mirror, the terminals or contacts of this heating element provided for the current supply being welded, riveted, or attached by a device.

 However, mirrors produced by this process have serious drawbacks. For example, plastics and adhesives are generally attacked by the heat generated in the heating element and deteriorate over time. In addition, the fixing of the terminals to the flexible plastic material is laborious and does not always ensure an adequate insulation, so that there is a permanent risk of water infiltration, which can attack the adhesives and the heating element. .

 In addition, the fact that the heating element is interposed between plastic films makes the current consumption higher than necessary, due to the fact that part of the heat generated by these elements disperses in the volume of the material. plastic before reaching the glass.

 In another type of widely used heated mirrors, the heating element is composed of wires of a resistant material which are fixed by pressure with the production of electrical insulation, on an aluminum film which is fixed to the surface of the glass. by means of self-adhesive tapes. However, due to the free space existing between the heating element and the glass, this type of mirror presents the same problem of excessive energy consumption as the mirrors described above.

 In a third type of electrically heated mirror, the heating element is formed by applying a conductive paint to the glass surface which, after being baked, receives the power supply terminals, a thermal device and a cut -bimetallic circuit, the mission of which is to regulate and maintain the temperature within a certain interval, these elements being welded with conductive paint, after which a layer of adhesive is deposited on these elements.

 However, this type of electrically heated mirror also has drawbacks, which begin with the difficulty of applying the adhesive, which does not accommodate itself to follow the irregularities of the welds, continue until the deterioration of the adhesive due to the action of heat and end up with a great risk of failure or destruction of electro-mechanical control devices due to the vibrations to which they are subjected.

 The can of the invention is to provide a solution to these drawbacks of the prior art by providing a method of manufacturing a rear view mirror equipped with an electric heating device which is easy to implement, easy to manufacture, very reliable and which has a very low current consumption.

 Another object of the invention is to provide an electrically heated rear view mirror.

According to the invention, these objects are achieved by providing a process for manufacturing a rear view mirror fitted with an electric heating device, characterized by the phases consisting in
- apply a layer of conductive paint on a first glass surface, said layer defined
having a specific design: and
- coating the opposite surface of said glass with a film of suitable material to form a reflective surface.

 Other characteristics and advantages of the invention will appear during the description which follows. The accompanying drawing, given solely by way of example, is a schematic flow diagram of a process for manufacturing a rear view mirror.

 As can be seen now by referring more particularly to the drawing, to manufacture a mirror fitted with an electric heating device according to the invention, a glass plate 1 having the desired shape for the mirror is initially positioned in a shape 2 , to print it by the silk screen process.

 A screen 3 presenting the desired design for the heating element is placed in position above the form 2 and a silver-based conductive paint 4 is then applied to the surface of the glass, in which fiber particles are incorporated. of glass (frit), so that the design of the screen 3 is thus reproduced on the glass.

 After this painting or printing phase, the form 2 containing the printed glass 1 is placed on a conveyor belt 6 which passes through a drying oven 7 whose temperature is controlled by a thermostat 8, and whose function consists in speed up the cooking of the conductive paint 4 so as to print the desired design 9 indelibly on the glass plate 1.

 The temperature of the oven is preferably maintained at about 650 "c so as to melt the glass fiber frit contained in the conductive paint 4 on the surface of the glass and thereby produce an incustration of the paint on the glass which is capable to resist tearing and scratching.

 The glass thus printed or engraved 9 is then washed with ultrasound and dried in freon vapor, as indicated by the references 10 and 11 of the appended drawing, after which the glass is ready to be metallized.

 For metallization, the printed or engraved glass plates 9 are fixed by specially concise and drawn hooks (not shown) depending on the shape and size of the mirror, these hooks being placed on a rotating carriage which enters the chamber metallization 12.

 It is important to emphasize that the film of aluminum, chromium or other material which is deposited to subsequently constitute the reflecting surface must be placed on the surface of the glass which is opposite to that which received the impression. conductive paint.

Unlike the prior art, this allows the heating element to be placed in direct contact with the glass, thereby eliminating any unnecessary energy consumption.

 The metallization chamber 12 is of the vacuum type, in which the deposition of the reflective film is carried out by a sputtering process.

 Following the metallization phase, terminals 13 are welded in position and protective caps 14 are positioned on these terminals, after which the printed surface 9 undergoes a second painting phase.

Surface 9 is painted using a spray gun
spray 15, using epoxy paint,
and the glass is then placed on a trans belt
carrier 16 which passes through a drying oven 17.

In this way, a thin layer of protective coating is formed on the printed surface 9, of my
to protect and insulate the electric heating element
stick, while the opposite surface forms the reflecting surface.

 When the protective caps 14 have been removed, the heated mirror according to the present invention is ready to be used, the only necessary operation consisting in connecting the supply conductors.

One of the conductors is grounded to the chassis of the vehicle while the other is connected to the positive terminal via a switch mounted in series.

 According to the invention, there is provided a heated mirror which is easy to manufacture and very durable.

It goes without saying that different modifications
Wind be made to the invention without departing from the scope of the invention, for example, the cooking of the conductive paint can be performed by means of ultraviolet radiation.

Claims (10)

 1. Method for manufacturing an electrically heated rear view mirror, characterized by the phases consisting  - Apply a layer of conductive paint on a first surface of a glass plate, said layer defining a determined pattern; and coating the opposite surface of said glass plate with a film of a suitable material to form a reflective surface.  2. Method according to claim 1, characterized in that it comprises a phase consisting in baking said conductive paint in a drying oven.  3. Method according to claim 1, characterized in that it comprises the phase consisting in baking said conductive paint by means of ultraviolet radiation.  4. Method according to claim 2 or claim 3, characterized in that said conductive paint contains particles of glass fibers incorporated in its mass.  5. Method according to claim 4, characterized in that said paint curing phase consists in melting the glass fiber particles on said first surface of the glass plate, which has the effect of engraving said design determined on this plate.  6. Method according to claim 1, characterized in that it comprises a phase consisting in depositing a coating of protective paint on said layer of conductive paint.  7. Method according to claim 1, characterized in that it comprises washing phases with ultrasound and drying in a freon vapor interposed between the phases of application of the conductive paint and coating of the mirror.  8. A method of manufacturing a rear view mirror provided with an electric heater, characterized in that it comprises phases consisting in: applying a layer of conductive paint containing glass fiber particles to define a determined pattern on a first surface a glass plate; baking said layer of conductive paint while at the same time melting the particles of glass fibers: washing said glass plate, with the pattern of conductive paint engraved on its surface; drying said etched glass plate; coating the opposite surface of the etched glass plate with a film of a suitable material to form a reflective surface; and applying a layer of protective paint to said layer of reflective paint.  . Electrically heated mirror, characterized in that it comprises a glass plate (1) having a layer of conductive paint (4) on a first face, to thus define a determined pattern (9), the opposite face of said plate glass being coated with a film of a suitable material to form a reflective surface.  lo. Mirror according to claim 9, characterized in that said conductive paint (4) contains particles of glass fibers incorporated in its mass.  11. Mirror according to claim 10, characterized in that the glass fiber particles are melted on the surface of the glass plate so as to etch the pattern of conductive paint, on this surface.  12. Electrically heated rear view mirror, characterized in that it is manufactured by the method according to claims 1 to 8.