FR2747191A1 - OPTICAL CONTROL DEVICE - Google Patents

Abstract

An optical monitoring device for objects such as glass containers, comprising at least one transmitter and/or receiver and including an electromagnetic control radiation-transmitting window, wherein said window is sealed by an electromagnetic control radiation-transmitting substrate and its outer surface has a scratch resistance higher than that of the glass.

Description

OPTICAL CONTROL DEVICE
The invention relates to a device for the optical control of objects, and more particularly of glass objects, such as bottles, flasks, etc. Such control devices make it possible in particular to decide whether to accept or reject articles. They also make it possible to monitor the general level of quality of the articles manufactured, in particular by dimensional checks and especially aspect checks; these revealing the surface condition and possible internal faults.

This is why this control is widely used in the glass industry and in particular hollow glass, that is to say for the fine inspection of delimited areas likely to carry specific defects, in particular glazes, and we therefore readily resort to oriented light beams, more or less narrow, or on as much of the wall as possible for the detection of more varied defects: inclusions, paste defects, thicknesses, adhesions,
.. In this case it is necessary to study an image of the moving object with or without rotation, most often formed by transparency in diffuse lighting.

 Although the invention is not limited to such an application, it will be described with reference to the bottom control of containers.

 Such controls require an illumination and a shot on either side of the bottom of the container. This control can be done either statically, or while the container is scrolling on a conveyor.

 In all cases, it is necessary to provide an interruption in the plane of the conveyor, which is for example a mat, to allow the electromagnetic control radiation to pass between the bottom of the container and the light source and / or the receiver. This means that the conveyor has a window or slot in its conveying plane above which the container must pass, so that an image of the bottom can be observed. Different difficulties then arise; first of all, it seems impossible to observe the entire bottom of a container. Indeed, such an operation requires an opening in the conveying plane at least equal to the dimension of the bottom of the container to be checked and preferably greater. In such a case, it is obvious that the container is no longer supported, its fall and breakage cannot be avoided. Consequently, the control is limited to a part, generally the center, of the bottom of the container, which is not satisfactory. In addition, although the opening in the conveying plane is less than the bottom of the container, it sometimes happens that the container tilts and therefore its fall and blockage of the line.

 To avoid these problems and more particularly to obtain a complete image of the bottom of the container, the European patent application published under No. 487 402 proposes a temporary interruption of the conveyor, the container then being supported by two lateral bands. According to this embodiment, the bands are animated so as to support and convey the container above the area where the conveyor is interrupted. At the interruption of the conveyor, there is a control device capable of observing the entire bottom of the container. However, such a device has some drawbacks; first of all, it is relatively bulky, but the locations at which such checks are necessary do not always have enough space to install it. Furthermore, when the container is held between the strips, it is not very stable and its vertical axis cannot be confused permanently with that of the objective which must capture the image of the background. Analysis of the bottom of the container is therefore not always easy to carry out. Finally, when the container leaves the belts and is released on the conveyor, its unstable vertical position can lead to a fall and therefore to a break or even a stop of the conveying device.

 The object of the invention is therefore to provide an optical device for controlling objects, in particular authorizing control of the entire bottom of a container, whatever the size thereof, while eliminating any risk of breakage of said container due to this. control.

 This object is achieved according to the invention by an optical object control device, consisting of at least one receiver and / or one transmitter, comprising a window transparent to electromagnetic control radiation, the window being closed by a substrate transparent to electromagnetic control radiation and said substrate having an outer face having a scratch resistance greater than that of glass.

 In the case of checking the bottom of a glass container, the device is for example inserted in the plane of the conveyor, during the control phase the container is thus supported by the substrate on which it slides without risk of degrading it. , its scratch resistance being greater than that of glass.

During its passage over the substrate, the dimensions of which are chosen to be greater than those of the bottom of the container, the control of said bottom can be carried out completely, the trajectory of the container not being disturbed. In this application, the external face of the substrate is that in contact with which the bottom of the container is located during the control.

 Preferably, the scratch resistance of the substrate is between 7 and 10 on the Mohs scale.

According to a first variant, the substrate is a block, such as a plate or a lens, cut from the mass of a crystal such as a sapphire, ruby, artificial or natural diamond crystal,
According to a second variant, the substrate is an assembly of blocks, such as plates, bonded, said blocks being cut from the mass of crystals such as sapphire, ruby, artificial or natural diamond crystals,
This second variant makes it possible to use thinner blocks than in the first variant, the resistance of the assembly being equivalent. the glue used advantageously has a refractive index equivalent to that of the crystal.

 In order to reduce the production costs of such a substrate and / or to improve the mechanical properties of said substrate and in particular its resistance, the invention advantageously provides for bonding the substrate obtained according to one or the other. of the first two variants, to a material transparent to electromagnetic control radiation. This material is for example a glass plate and the adhesive advantageously has a refractive index close to that of crystal and / or glass.

 According to a third variant of the invention, the substrate is a block, such as a plate or a lens of a material transparent to electromagnetic control radiation, said material comprising on its outer face a thin layer having a resistance to scratching. greater than 7 on the Mohs scale and itself transparent to electromagnetic control radiation.

Preferably, the thin layer is a DLC layer (Diamond Like
Carbon) obtained by CVD (Chemical Vapor Deposition).

 The device thus described according to the invention can therefore be used for checking the bottom of a glass container, said device forming an element of the conveying plane, and more precisely the face of the substrate having a scratch resistance greater than that of glass. constituting said element of the conveying plane. Such a device thus avoids any risk of falling and / or breaking of the containers passing over the opening made in the plane of the conveyor.

 Furthermore, the dimensions of the substrate can be chosen to be greater than those of the bottom of the container and allow control of the entire bottom. Such a device also has the advantage for this application of protecting the transmitter or the receiver placed under the conveying plane from any element, such as pieces of glass which may be on the conveyor and which in the case of a slit or window that is not closed, that is to say according to prior techniques, could fall on said device and damage it.

 Such a device can be used in other applications always relating to the control of objects and more particularly of glass objects. For example, in the case of vertical guides, it is not uncommon to find slots through which one operates a control on the body of the container. The device according to the invention is also very advantageous for such an application; it makes it possible to close said window, the vertical guide then being able to better fulfill its function. In addition, closing the window also makes it possible to protect the emitter and / or the projection receiver from pieces of glass or simply from glass dust. It appears that the objectives used in the glass container inspection industry are often degraded either by the appearance of scratches or due to their breakage. These degradations are due for example to projections of pieces of glass when breakage occurs of containers or else to the presence of glass dust on said objectives or on cleaning cloths. Indeed, the presence of glass dust during cleaning of the objectives can lead to scratches, these then disturbing the received signal and more particularly decreasing the contrast of this signal.

 This commentary leads to another application of this device relating to all types of control apparatus and in particular those performing remote controls, the substrate having a scratch resistance greater than that of glass, providing protection in particular to objectives.

Periodic replacement of these lenses due to their breakage or the presence of scratches can then be avoided. The invention also relates to the production of objective lenses with blocks as described above.

Other details and advantageous characteristics of the invention will emerge below from the description of an embodiment of a device according to the invention, with reference to FIGS. 1 and 2 which represent
O Figure 1: a diagram of a control device according to a prior technique,
El Figure 2: a diagram of a device according to the invention.

 FIG. 1 illustrates a technique of the prior art previously described.

This technique is that taught in particular by European patent application 487 402. In this figure 1, a bottle 1 is represented which is initially conveyed by a conveyor belt 2. The bottle 1 is thus transported in the direction indicated by the arrows 3 up to 'at the end of the belt 2 from which the bottle 1 is supported by bands 4. These bands are driven by a movement indicated by the arrows 5, which allows to continue to transport the bottle 1 in the direction arrows 3. During its transport between the strips 4, the bottle 1 passes between a light source 6 and a receiver 7 provided to control the bottom 8 of the bottle 1. At the end of its path between the strips 4, the bottle 1 is taken over by a conveyor belt 9 which continues the transport of the bottle 1 always in the direction of the arrows 3. It appears that this technique allows control of the entire surface of the bottom of the bottle 1 san s there is a risk of it falling during the inspection. However, the holding of the bottle 1 between the strips 4 is not always ideal and it may happen that it is not in a stable vertical position when passing over the receiver 7. This results in a distorted image. and problems with analyzing such an image. Furthermore, when the bottle 1 leaves the strips 4, it is not, in the same way, not always redeposited in a vertical position on the belt 9. In the case where the bottle 1 is in a too inclined position, it may fall and block the scrolling of the other bottles. In addition, pieces of glass transported by the conveyor 2 can reach the receiver 7 and damage it. A final drawback of this technique, already stated above, is that it is not applicable in all cases due to its size.

 In Figure 2 is illustrated a diagram of a device according to the invention. In this FIG. 2, the same bottle 1 as in FIG. 1, undergoes an optical control of its bottom between a light source 6 and a receiver 7 identical to those of FIG. 1. Also shown in this FIG. 2 is a plate slide 10 on which the bottles slide in the direction of arrow 3 driven by any type of dynamic means known to those skilled in the art. At the bottom control area 8 of the bottle 1 is provided an opening 11 in the sliding plate 10, said opening 11 having dimensions greater than those of the bottom of the bottle 1. This opening 11 is closed by a substrate 12 which in this case is a plate cut from the mass of a sapphire crystal. The control device according to the invention therefore consists of the receiver 7 and of the plate 12 which is inserted into the sliding plate 10 at the level of the control zone.

First of all, it is very clearly shown in FIG. 2 that the presence of the plate 1 2 of course prevents the bottle from falling through.
The opening 11. Furthermore, this plate 12 provides protection to the receiver 7 with regard, for example, to glass debris resulting from the breaking of bottles which could have been transported by the sliding plate 10 to this point.

 The conveyor 10 is in this FIG. 2 simply shown diagrammatically by a horizontal plane comprising an opening; it can be all types of conveyors such as chain pallet conveyors, conveyor belt type, etc. Such conveyors can be interrupted as in the case of FIG. 1 or simply have an opening 11. The passage of the bottle 1 on the plate 12 is effected by sliding, the driving of the bottle 1 on the plate 12 being carried out by all types of means known to those skilled in the art, for example by simple pushing due to the file of bottles, or by drive wheels comprising cells or any other means of mechanical thrust.

 The device thus described according to the invention therefore makes it possible to obtain control of the entire surface of the bottom of the bottle 1, without risk of breakage of the bottle 1 or damage to the receiver 7. In addition, the nature of the plate 12 which has a scratch resistance greater than that of glass makes it possible to maintain a satisfactory surface condition of the plate 12 which contributes to good control of the bottles 1, the quality of the image obtained not being diminished for example due to the presence of scratches which could have been due to the sliding of the bottles 1 on the plate 12.

Claims (10)

 1. Device for optical control of objects, consisting of at least one receiver and / or one transmitter, and comprising a window transparent to electromagnetic radiation control, characterized in that the window is closed by a substrate transparent to electromagnetic radiation of control and in that its outer face has a scratch resistance greater than that of glass.  2. Device according to claim 1, characterized in that the scratch resistance of the substrate is between 7 and 10 on the Mohs scale.  3. Device according to one of claims 1 or 2, characterized in that the substrate is a block cut in the mass of a crystal such as a sapphire, ruby, artificial or natural diamond crystal,  4. Device according to claim 1 or 2, characterized in that the substrate is an assembly of glued blocks and in that the blocks are cut in the mass of crystals such as sapphire, ruby, artificial or natural diamond crystals ,  5. Device according to one of claims 3 or 4, characterized in that the substrate is associated by bonding to a material transparent to electromagnetic radiation control.  6. Device according to one of claims 1 or 2, characterized in that the substrate is a block of a material transparent to electromagnetic control radiation and in that it comprises on its outer face a thin layer having a resistance to the stripe greater than 7 on the Mohs scale.  7. Device according to claim 6, characterized in that the thin layer is a DLC (Diamond Like Carbon) layer obtained by CVD (Chemical Vapor Deposition).  8. Use of a device according to one of claims 1 to 7 as a wall element of a tool supporting and / or guiding glass elements.  9. Use of a device according to one of claims 1 to 7 on remote control devices for glass elements.  10 Use according to one of claims 8 or 9, characterized in that the glass elements are containers.