BE1019177A3 - DEVICE FOR DRIVING ROLLS FROM A GLASS RECOVERY STRETCH USING WHEELS AND SPROCKETS, AND EXTENSION EQUIPPED WITH SUCH A DEVICE. - Google Patents

Abstract

Device for driving the rollers supporting a flat glass ribbon in a lehr making it possible to control the cooling of the continuous ribbon of glass after it leaves a forming equipment to bring it to room temperature, comprising at the level of each roll (7 ) a pinion (1) driven in rotation, each roller being equipped on the control side with a wheel (2) cooperating with the associated pinion; the pinions (1) and the wheels (2) are designed so as not to require lubrication.

Description

DEVICE FOR DRIVING ROLLS FROM A GLASS RECOVERY STRETCH USING WHEELS AND SPROCKETS, AND EXTENSION EQUIPPED WITH SUCH A DEVICE.

The present invention relates to a drive device for rollers supporting a flat glass ribbon in a facility called a glass annealing extension for controlling the cooling of the continuous glass ribbon after it has been removed from a forming equipment for the bring to room temperature.

The glass ribbon enters the lehr at a temperature above 600 ° C, so that the support rollers should be arranged very evenly. The spacing between the rollers is generally of the order of 300mm to 600mm. Given the cooling constraints of the glass, the total length of the cooling equipment is generally greater than 100m and the number of rolls to dispose more than 200 units.

In order to avoid creating marks on the glass and to avoid any deformation due to thermal stresses, the rollers must be rotated so that the peripheral speed of these rollers is identical to the speed of movement of the glass. The speed of travel of the glass is generally between 1 and 25 m / min.

On existing production lines, the drive of the lehr rollers is carried out by means of a control shaft rotated via a motor / gear motor motor; this tree runs along the entire line and is equipped with very resistant steel gears to the right of each roll of the lehr. Each roller is equipped with the control side of a cast iron wheel or steel less resistant than the pinion installed on the shaft (fuse function). The shaft is positioned in such a way that, once the roller has been placed in the working position, the wheel installed on this roller meshes perfectly with the pinion of the shaft via a suitable tooth profile.

In order to ensure the durability and the lubrication of this pinion / wheel mechanical connection, the wheel of the roller whirls in an oil bath and drives it by its rotation at the point of the pinion / wheel contact. This lubrication requires the installation of oil trays and effective protections against overflow, splashing, migration of oil on the main shaft.

This lubrication can only be effective with significant maintenance and very regular monitoring of the oil levels in the tanks. This maintenance work is heavy, it must be performed in hazardous conditions and sometimes polluting for the working environment, not to mention that it generates significant discharges to be treated by specialists.

The object of the invention is, above all, to provide a drive device which no longer has the disadvantages described above.

According to the invention, a drive device for the rollers supporting a flat glass ribbon in an outrigger for controlling the cooling of the continuous ribbon of the windscreen after it leaves a forming equipment to bring it to ambient temperature, includes right of each roll a pinion rotated, each roller being equipped with the control side of a wheel cooperating with the associated pinion, and is characterized in that the pinions and the wheels are designed so as not to require lubrication.

Advantageously, the pinions and / or the wheels are made of a non-metallic material.

Thus, according to the invention, it ensures the establishment of sprockets and wheels of non-metallic materials do not require permanent lubrication during the transmission of the rotation of the shaft to the roller. The materials used will comply in terms of mechanical resistance, thermal and environmental standards.

The invention entails a drastic reduction in maintenance, and the elimination of oil tanks with all their disadvantages (pollution .....)

According to one embodiment of the invention, the pinions and / or the wheels are made of a synthetic material.

The pinions and / or the wheels may be made of a plastic material resistant to temperature and having a low coefficient of friction, in particular polytetrafluoroethylene (PTFE). Alternatively, the pinions and / or the wheels may be made of composite material.

The invention also relates to a drying rack for controlling the cooling of a continuous glass ribbon after it has been removed from a forming equipment to bring it to ambient temperature, comprising rollers supporting the flat glass ribbon and a device driving the rollers with, at the right of each roller, a pinion driven in rotation, each roller being equipped with the control side of a wheel cooperating with the associated pinion, which lehr is characterized in that the drive device is in conformity to that defined previously.

The invention consists, apart from the arrangements set out above, in a certain number of other arrangements which will be more explicitly discussed below with reference to an example embodiment described with reference to the appended drawing, but which is in no way limiting. On this drawing :

The single figure shows a vertical sectional view of an embodiment of the invention.

As shown, a drive device of the rollers 7 of an outrigger is made by means of a control shaft 5 rotated via a motor / gear motor. The tree 5, perpendicular to the plane of the drawing, runs through the entire line. A structure composed of posts 6 and beams 3 supports the rollers 7 and the control shaft 5.

The shaft 5 is equipped with pinions 1 of synthetic material to the right of each roller 7 of the lehr. Each roller 7 is equipped with the control side of a wheel 2 made of synthetic material. A housing 4 protects the moving parts.

The pinions 1 and / or the wheels 2 may be made of a plastic material resistant to temperature and having a low coefficient of friction, in particular polytetrafluoroethylene (PTFE).

In a variant, the pinions 1 and / or the wheels 2 may be made of a composite material, that is to say of a material consisting of fibers with high mechanical strength, in particular carbon-glass fibers, embedded in a resin, particular epoxy type.

According to the invention, the wheels 2 do not soak in a bath of lubricant.

Claims (7)

1. Device for driving rollers carrying a flat glass ribbon in an outrigger for controlling the cooling of the continuous glass ribbon after it leaves a forming equipment to bring it to ambient temperature, comprising the right of each roller (7) a pinion (1) driven in rotation, each roller being equipped with the control side of a wheel (2) cooperating with the associated pinion, characterized in that the pinions (1) and the wheels (2) are designed of so as not to require lubrication. 2. Device according to claim 1, characterized in that the pinions (1) and / or the wheels (2) are made of a non-metallic material. 3. Device according to claim 2, characterized in that the pinions (1) and / or the wheels (2) are made of a synthetic material. 4. Device according to claim 2 or 3, characterized in that the pinions (1) and / or the wheels (2) are made of a plastic material resistant to temperature and having a low coefficient of friction. 5. Device according to claim 4, characterized in that the pinions (1) and / or the wheels (2) are made of polytetrafluoroethylene (PTFE) 6. Device according to claim 2 or 3, characterized in that the pinions (1) and / or the wheels (2) are made of composite material. 7. Etenderie for controlling the cooling of a continuous glass ribbon after it leaves a forming equipment to bring it to ambient temperature, comprising rollers supporting the flat glass ribbon and a device for driving the rolls with , at the right of each roller (7), a pinion (1) driven in rotation, each roller being equipped with the control side of a wheel (2) cooperating with the associated gear, characterized in that the drive device is in accordance in any one of claims 1 to 6.