ITTO20120151A1 - DEVICE FOR THE REDUCTION OF HIGH-PRESSURE WATER ENERGY FOR CUTTING GLASS SHEETS. - Google Patents

Description

Description of the Industrial Invention entitled:

â € œDevice for the reduction of high pressure water energy for cutting glass sheetsâ €

DESCRIPTION

The present invention relates to a high pressure water energy reduction device for cutting glass sheets.

In the field of glass processing and cutting, classic processing technologies are known (drilling, countersinking and milling) with the aid of diamond tools.

Both the glass cutting technique by means of pressurized water and the movement of the glass itself on dynamic vacuum belts are also known.

However, all these known techniques and solutions have never been used together, precisely in the field of glass processing.

The purpose of the present invention is to solve the aforementioned problems of the prior art, providing a device for the reduction of the energy of the high pressure water for cutting glass sheets which is simple and inexpensive to manufacture and which allows a Effective reduction of energy and processing time.

This device is particularly suitable for use in cooperation with multi-function tool heads which will be described below, for final application in a complete machine for processing glass sheets.

The implementation of water cutting in plants that use classic processing technologies (drilling, countersinking and milling) with the aid of diamond tools, has made possible a production synergy that makes this machine unique.

The two technologies interact without limiting each other, indeed they complement each other, and each benefits from the capabilities of the other, expanding production capacities.

This translates into an enormous advantage for production, as it is possible to choose which type of cut to use, depending on the processing and quality required.

The implementation of this water cutting technology inside a tool turret has made this machine the only numerically controlled drill with an infinite number of drilling, countersinking and milling tools.

The automatic positioning of the glass allows water cutting in line with other production processes that do not require manual plate positioning interventions.

The movement of the glass on dynamic vacuum belts allows the positioning of the sheet without contact with the upper surface, and therefore makes the machine safe and fast for all types of glass, including low emissivity.

The vacuum in each sector of the belts is activated / deactivated according to the position of the glass. The automatic management system also takes into account the geometry of the shaped glass, thus obtaining in any situation the maximum capacity to contain the sheets.

In order to optimize the life of the high-pressure pump used for cutting water, which is notoriously limited by continuous pressure changes, the attachment of the high-pressure jet to the glass is made in a hole obtained with tools. diamond, instead of with the water jet with differentiated pressure. This, in addition to extending the life of the pump, eliminates the rebound of the abrasive material on the surface of the glass.

The machine allows the integration of the grinding and drilling processes in automatic production lines, as the loading, positioning and unloading of the glass is completely automatic.

The use of the automatic scrap collection unit, following the execution of a cut, has made this plant completely automatic and can be integrated into a production line without human intervention during the entire production cycle.

The above and other objects and advantages of the invention, as will emerge from the following description, are achieved with a high pressure water energy reduction device for cutting glass sheets such as the one described in claim 1. Preferred embodiments and non-trivial variants of the present invention form the subject of the dependent claims.

It is understood that all the attached claims form an integral part of the present description.

The present invention will be better described by some preferred embodiments, provided by way of non-limiting example, with reference to the attached drawings, in which:

Figure 1 is a front view of an embodiment of the multifunction tool head to which the present invention applies;

- Figure 2 is a perspective view of the head of Figure 1;

Figure 3 is a front view of the head of Figure 1 coupled to the device for reducing the energy of the water of the present invention;

- Figure 4 is a perspective view of the head and device of Figure 3;

Figure 5 is a cut-away perspective view of the inventive water energy reduction device to be coupled to the head;

Figure 6 is a perspective view of the working head of a glass plate on a vacuum transport;

- Figure 7 is a side view of the working group whose details are illustrated in Figure 6; And

- Figure 8 is a perspective view of the working group of Figure 7.

With reference to the Figures, a preferred embodiment of the high pressure water energy reduction device of the present invention is illustrated and described. It will be immediately obvious that innumerable variations and modifications (for example relating to shape, dimensions, arrangements and parts with equivalent functionality) can be made to what has been described without departing from the scope of the invention as appears from the attached claims.

The multi-function rotating tool holder head 1 illustrated in Figure 1 is mainly used for glass processing applications 3 and is equipped with a plurality of diamond tools 5, 7, 9, 11 and at least one water cutting spindle 13 composed of at least one high-pressure valve 15, at least one abrasive head 16 and at least one nozzle 18 for the discharge of high-pressure water 19 with abrasive.

Commonly, diamond tools 5, 7, 9, 11 consist of flaring tools 5, milling tools 7, or drilling tools 11.

The innovation of the illustrated head 1 consists in the introduction of the mandrel 13 for water cutting integrated in the rotating head 1 with diamond tools 5, 7, 9, 11 of any shape / size.

The tools 5, 7, 9, 11, as well as the chucks 13, can be used in any sequence and placed in any position.

Furthermore, according to the invention, the rotating head 1 can be equipped with the inventive device 20 for reducing the energy of the water 19 at high pressure with abrasive, in which this device 20 operates the reduction by impacting the water 19 against the material hard solid 22 in pieces contained therein.

In particular, but not in a limiting way, the device 20 consists of a container 24, preferably cylindrical in shape, internally lined with a jacket 26 suitable for protecting the container 24 from the action of water with abrasive 19; the container 24 contains inside it the solid hard material in pieces 22 and is equipped with an upper cover 28 (preferably of the sloping type with a triangular section, as illustrated in Figures 4 and 5) provided with at least one hole 29 for the water inlet with abrasive 19. Furthermore, the container 24 is equipped with at least one lower drain hole 30 able to drain the water with abrasive 19 after it has come into contact with the solid hard material in pieces 22 and after it has dissipated its energy.

Again in particular, but not in a limiting way, the container 24 can be of the metal type, while the jacket 26, in the case of a cylindrical container 24, can be a hollow ceramic cylinder and the solid hard material in pieces 22 can be made of from a multitude of 22 ceramic balls (although other equivalent materials are possible).

In summary, the device 20 dampens / converts the residual energy of the water jet 19 at high pressure, after having impacted and cut the glass 3. The residual energy is transformed into heat following the impact with polyhedral objects and / or spherical and / or cylindrical of solid material 22 present inside the container 24.

The device 20 positioned by an axis controlled by the CNC is perfectly placed in axis with the spindle 13.

In the application example illustrated in the Figures, the ceramic spheres 22 allow to dampen the energy with the advantage of allowing the water 19 with the abrasive to flow between the interstices that they create.

To dissipate the energy of the water jet 19 following the impact with the glass 3, it is necessary to have a space in height equal to about 800mm, with the consequent emission of noise with the achievement of a maximum frequency equal to about 130-140dB.

With the use of the above technical solution, the necessary space is reduced to less than half, with a reduction of the sound impact of about 50 dB.

The rotating head 1 described above, due to its versatility, is among other things capable of operating with a dynamic vacuum conveying system 32 consisting of at least one group of vacuum conveying belts 42, 44 suitable for supporting and operatively translating at least one glass plate 3, as illustrated in Figure 6.

Thanks to the dynamic vacuum system 32, the glass plate 3 is blocked, allowing precise positioning without the aid of mechanical parts in contact with the surface of the glass 3.

With this system 32, the abrasive that is deposited on the surface of the glass 3 as a result of cutting cannot generate any surface scratches.

The systems currently on the market, without this system 32, need to block the plate 3 with technical solutions capable of transmitting forces on the two surfaces (upper and lower) of the glass plate 3. In this way, the probabilities increase considerably. to scratch the plate 3 superficially with the consequent rejection from the production cycle of the same.

Furthermore, again due to its versatility, the rotating head 1 described above can be suitable for use in an automatic group 50 for collecting and managing glass scraps 52 equipped with means 54 (preferably of the suction cup type 56), for picking up and unloading of the scraps 52, as illustrated in Figures 7 and 8, following a cutting operation of the slab 3 using the abrasive diamond tools 5, 7, 9, 11 or following a water cut with abrasive carried out with the spindle 13.

This group 50 has an automatic positioning managed by software and perfectly integrated in the system. Usually, in in-line machines, this operation is performed by man: thanks to the use of this group 50, it can be said that the plant in all its processes (intended as drilling, countersinking, milling and cutting water) is able to be completely automatic and without human intervention during the entire production process.

In this specific application example, as illustrated, the group 50 is composed of a positioning performed by two controlled axes (X and Y direction), a pneumatic actuator for movement along the Z axis and a venturi system 54 with the relative suction cup 56 for picking up and releasing the scrap 52.

Some preferred embodiments of the present invention have been illustrated and described above: obviously, numerous variants and modifications, functionally equivalent to the previous ones, which fall within the scope of the invention as highlighted in the attached claims, will be immediately apparent to those skilled in the art.

Claims (8)

CLAIMS 1. Device (20) for reducing the energy of high pressure water with abrasive (19) for cutting glass sheets, said device (20) operating said reduction by impacting water (19) against hard solid material (22) in pieces contained in it. 2. Device (20) according to claim 1, characterized in that it consists of a container (24), preferably cylindrical in shape, internally lined with a jacket (26) designed to protect said container (24) from the action of water with abrasive (19), said container (24) containing inside said hard solid material in pieces (22) and being equipped with an upper cover (28) provided with at least one hole (29) for the entry of water with abrasive (19), said container (24) also being equipped with at least one lower drain hole (30) adapted to drain the water with abrasive (19) after it has come into contact with said solid hard material in pieces (22) and after it has dissipated its energy. 3. Device (20) according to claim 1 or 2, characterized in that said container (24) is of the metal type, said jacket (26) is a hollow ceramic cylinder and said solid hard material in pieces (22) Ã It is made up of a multitude of ceramic spheres (22). 4. Device (20) according to claim 1, 2 or 3, characterized in that it is adapted to operate with a multi-function rotating tool-holder head (1) for glass processing applications (3) equipped with a plurality of diamond tools (5, 7, 9, 11) and at least one water cutting spindle (13) consisting of at least one high pressure valve (15), at least one abrasive head (16) and at least one nozzle (18) for the discharge of water (19) at high pressure with abrasive. 5. Device (20) according to claim 4, characterized in that said diamond tools (5, 7, 9, 11) consist of flaring tools (5), milling tools (7) or drilling tools (11) . 6. Device (20) according to any one of the preceding claims, characterized in that it is adapted to operate with a dynamic vacuum conveying system (32) consisting of at least one group of vacuum conveying belt (42, 44) adapted to supporting and translating at least one glass plate (3). Device (20) according to any one of the preceding claims, characterized in that it is suitable for use in an automatic assembly (50) for collecting and managing glass scraps (52) equipped with means (54) for collecting and discharging of said scraps (52). Device (20) according to claim 7, characterized in that said means (54) for picking up and discharging said scraps (52) are of the suction cup type (56).