RU75601U1 - INSTALLATION FOR LASER PROCESSING - Google Patents

Abstract

The utility model is aimed at simplifying the design and improving ease of use. The specified technical result is achieved by the fact that the installation for laser processing includes a laser, an optical system for transmitting radiation to the cutting head, a control system, mechanisms for moving the cutting head in the upper part of the processing zone and two transportable pallets equipped with transportation systems for placing the sheet to be processed on them material, pallet feeding mechanisms to loading, processing and unloading zones, pneumatic cylinders for moving these pallets from one transportation system to another, d I lower, raise and rotate the pallets relative to the vector of their movement to the loading position of the processed sheet material, while one of the transport systems and the mechanisms for feeding pallets to the processing and unloading zones are located at the top of the processing zone, and the second transport system and pneumatic cylinders move and raise the pallet - at the bottom. 4 cpf, 8 ill.

Description

The utility model relates to the field of heat treatment of materials and can be used for laser cutting of parts from sheet materials.

Known laser installation for cutting sheet materials "Prodelase 2000" company "Laser Techniques", France [1]. The installation includes a laser, a technological post, and a control system. The technological post has a retractable table for loading and unloading processed sheets and parts and mechanisms for moving optical elements - rotary mirrors and a focusing lens. The laser beam from the laser through the light guide and the system of rotary mirrors is directed to the focusing lens, where it is focused and then sent directly to the processed sheet.

In most cases, in the practice of laser cutting of sheet materials, parts of the same type, or parts of similar shape, are cut on the processed sheet. The geometric characteristics of these parts are embedded in the installation control program.

Installation "Prodelase 2000" works as follows. The sheet to be processed is loaded manually on the drawer in the loading position. Next, the table with the sheet moves to the processing zone. The laser is turned on and the laser beam is directed through a system of swivel mirrors and a focusing lens into the processing zone. The mechanisms for moving optical elements according to the program of the control system move the focusing lens over the sheet, and thereby the figured clipping of parts. The operation of all mechanisms, as well as the operation of the laser, is controlled by the installation control system. Cutting parts on a sheet is performed sequentially. First, part 1 is cut, then part 2, and so on, to the end of the row. After the cutting of the details of the first row is completed, the cutting of the details of the second row begins and so on until the end of processing the entire sheet. Treatment

starts in the zone closest to the laser and ends in the far zone (or vice versa).

After processing the entire sheet, the sliding table is removed from the processing zone to the loading - unloading position and finished parts and waste are manually removed.

The disadvantages of the installation is the low productivity of the installation, due to the large time spent on loading intended for sheet processing and unloading of finished parts and waste. At this time, parts are not cut, and the main equipment, including the laser, is idle.

Known installation "Trumatik L3003" company "Trumpf", Germany, in which the loading of sheets and unloading of finished parts and waste can be made during laser operation [2]. To do this, it uses 2 removable tables located at different heights. When processing a sheet on one table on another, a new sheet is loaded and the finished parts and waste are unloaded. However, this installation has the following disadvantages.

1. Tables are located at different heights. After processing a sheet on one table, you must move the lens either up or down to process the next sheet. At the same time, in order to avoid misalignment, it is necessary to very accurately position the lens in the upper and lower positions, which requires an appropriate high-precision movement mechanism.

2. The length of transportation of the laser beam during operation is constantly changing over a wide range. Therefore, the quality of the cut and the geometric dimensions of the cut parts are changed.

In addition, despite the fact that this installation eliminated the drawback present in the Prodelase 2000 installation, and loading a sheet and unloading waste and finished parts is possible simultaneously with laser cutting of parts on another sheet, it does not take into account the fact that time loading sheets and unloading waste and finished parts is always almost the same, and the time for cutting parts, their perimeters varies widely. Consequently, equipment downtime, although reduced, remains almost inevitable.

The prior art also known installation for laser processing, including a laser, control system, optical movement mechanisms

elements and three tables for placing sheets on them (see US 5183993, B23K 26/02, 1993 [3]). When processing sheets on one table on another, a new sheet is loaded and the finished parts and waste are unloaded on the third table. During processing, the sheet is moved one step after cutting parts in each previous row. However, the disadvantages of this installation are that the tables remain stationary during the transportation of sheets by special robots, which greatly complicates the installation and its management.

Closest to the claimed in its technical essence is a known installation for laser processing, which is equipped with a frame, table transport systems, table feed mechanisms to the processing zone and table feed to the discharge zone, pneumatic cylinders for moving these tables from one transportation system to another and for lifting tables in the position of loading sheets, while in the upper part of the frame there are mechanisms for moving optical elements, one of the transportation systems and mechanisms for feeding tables to the zone about processing and unloading, and in its lower part - the second transportation system and pneumatic cylinders for moving and lifting tables. All three tables have the same functions, and they are processed sequentially. On the first table is the cutting of parts, on the second there is an unloading of waste and finished parts, and it then moves to the loading zone during cutting on the first table. On the third table, a sheet intended for processing is loaded. After loading, the third table is immediately sent by the table feed mechanism to the processing zone (RU 2139781 [4 [).

A disadvantage of the known installation is its relative design complexity, which consists in the presence of three tables for transporting the sheets to be processed.

Declared as a utility model, the laser processing unit is aimed at simplifying the design and increasing the ease of use.

This result is achieved by the fact that the installation for laser processing includes a laser, an optical system for transmitting radiation to the cutting head, a control system, mechanisms for moving the cutting head in the upper part of the processing zone and two transportable pallets equipped with transportation systems for placing the processed sheet material on them , mechanisms for feeding pallets to the loading, processing and unloading zones, pneumatic cylinders for moving these pallets from one system

transporting to another, for lowering, raising and turning the pallets relative to the vector of their movement to the loading position of the processed sheet material, while one of the transport systems and pallet feeding mechanisms to the processing and unloading areas are located in the upper part of the processing area, and the second transportation system and pneumatic cylinders moving and lifting pallets - at the bottom.

The specified result is also achieved by the fact that the installation is equipped with means for supplying compressed air to the cutting zone.

The indicated result is also achieved by the fact that the means for supplying compressed air to the cutting zone is made in the form of two nozzles mounted on both sides of the processing zone with the possibility of their movement along one of the coordinates synchronously with the cutting head.

The specified result is also achieved by the fact that the treatment area is sealed and equipped with an exhaust ventilation system.

The indicated result is also achieved by the fact that the windows for entry and exit of the pallet from the processing zone are equipped with elastic curtains.

The inventive installation for laser processing includes a laser known from the prototype, an optical system for transmitting radiation to the cutting head, a control system, a mechanism for moving the cutting head in the upper part of the processing zone. In contrast to the known installation, the proposed one contains two transportable pallets equipped with transportation systems for placing the processed sheet material on them, pallet feeding mechanisms to the loading, processing and unloading zones, pneumatic cylinders for moving these pallets from one transportation system to another, for lowering, lifting and turning pallets relative to the vector of their movement to the loading position of the processed sheet material, while one of the transport systems and the pallet feeding mechanisms to the zone brabotki and unloading arranged at the top of the treatment zone and the second transportation system and the pneumatic lifting and moving the pallet - in the bottom.

The use of two pallets instead of three tables for transporting sheets to the processing zone, loading and unloading significantly simplifies the design of the installation. Accordingly, for moving pallets are used, as in

prototype, pneumatic cylinders, but in this case, not a table, but a pallet (pallet) moves, i.e. lightweight design, which is designed to accommodate the processed sheet. Moreover, unlike the prototype, pneumatic cylinders are used not only to lower and raise pallets and move from one transportation system to another, but also to rotate them relative to the vector of their movement to the loading position. This facilitates the operation of the installation, since the operator servicing the installation is much easier to fix the workpiece (sheet of processed material) on a pallet, the plane of which is close to vertical than laying the sheet on the horizontal surface of the table, given that the weight of the sheet can vary from a few kilograms up to several tens of kilograms, and the size - from one and a half to two meters. The location of one of the transportation systems and pallet feeding mechanisms in the processing and unloading zone in the upper part of the processing zone and, accordingly, the placement of the second transportation system and pneumatic cylinders for moving and lifting pallets in the lower one ensure the functioning of the installation as a whole using two pallets instead of three tables.

Providing the installation with a means of supplying compressed air to the cutting zone increases the ease of operation of the installation, since it provides removal, and thereby eliminating the possibility of their ignition under the influence of laser radiation, gaseous products arising in the process of cutting materials such as plastic or wood.

It is most optimal to carry out a means of supplying compressed air to the cutting zone in the form of two nozzles mounted on both sides of the processing zone with the possibility of moving them along one of the coordinates synchronously with the cutting head. In this case, the nozzle that is closer to the cutting zone is turned on. This allows you to reduce the flow rate of the required air to remove gaseous products that occur during processing, since the intensity of the air plume quickly decreases depending on the distance from the nozzle. In this case, the nozzles must move synchronously with the cutting head so that the air flow is directed to the cutting zone.

The implementation of the hermetic processing zone and the supply of its exhaust ventilation system also improves the usability,

since it ensures the evacuation of gaseous products arising during the cutting process from the working area where the operator is located and thereby eliminate their harmful effects on the operating personnel.

The supply of windows for the entry and exit of pallets from the treatment area with elastic curtains allows simple structural means to solve the problem of sealing the treatment area.

The essence of the claimed utility model is illustrated by an example of its implementation and drawings, which show the design of the installation without a sealed enclosure at various time phases of its operation (Figs. 1-7) and its section with a sealed enclosure (Fig. 8).

The proposed installation for laser processing includes a laser, an optical system for transmitting radiation to the cutting head, a control system, moving mechanisms of the cutting head, transportation systems, movable pallets to accommodate the processed sheet material, mechanisms for feeding pallets to the loading, processing and unloading areas, pneumatic cylinders to move these pallets from one transportation system to another, to lower, raise and rotate the pallets.

Since all the main components included in the installation are widely known from the prior art, and the essence of the proposal is to organize the movement of sheets of the processed material during the implementation of the technological cycle using two pallets, the applicant considered it appropriate to give a description and present only a fragment of the installation on the drawings containing means for moving sheets. The drawings show: 1 - cutting head; 2 - pallets; 3 - sheets of the processed material; 4 - upper guide; 5 - lower guide; 6 - inclined movable guide; 7 - pneumatic cylinder of horizontal movement; 8 - pneumatic cylinders of vertical movement; 9 - pallet travel limiter in the processing zone; 10 - stopper; 11 - device for fixing the workpiece; 12 - pneumatic cylinder of the device for fixing the workpiece; 13 - sealed housing; 14 - elastic curtains.

Installation works as follows. The laser cutting head 1 moves over the sheet 3 of the processed material installed

on the first pallet 2-1, and cuts out with a laser beam the pattern specified by the operator in order to obtain parts of the required shape. Another pallet 2-2 with a sheet 3 of the processed material installed on it is located on the loading device and is waiting for its turn (Fig. 1).

After cutting, the laser 1 head goes into the lower left corner of the table. The pneumatic cylinder 7 horizontal movement pushes the pallet 2-1 with cut blanks from under the laser head.

Starts the mechanism for lifting pallets 2-1 (pneumatic cylinders 8 vertical movement) to the upper level (figure 2).

When the pallet 2-1 is raised to the upper level, the pneumatic cylinder 7 moves horizontally, pushing the pallet 2-1 to the upper guides 4 (Fig.3).

Pallet 2-1 is located on the upper rails 4, which is kept from rolling by the pneumatic cylinder. The stopper 10, which holds the second pallet 2-2 on the loading device, is released, and it rolls under the influence of its own weight along the inclined guide 6 to the lower guide 5. The pneumatic cylinder 7 pushes this pallet along the straight section of the guides 5 until it rests against the limiter stroke 9 of pallets 2-2 in the processing zone, determining its position for laser processing (figure 4)

The inclined movable guide 6 of the loading device moves to the upper position, and the operator shifts the pallet 2-1 placed on the upper guide 4 onto it.

Under the influence of its weight, the pallet moves to the loading device and is fixed on it by the stopper 10. After that, the inclined movable guide 6 of the loading device goes into the lower position.

The movement mechanism of the cutting head 1 is turned on and laser cutting begins. The operator collects cut blanks from the pallet 2-1 on the loading device. After that, the loading device rotates with a pallet 2-1 around a horizontal axis.

The pallet becomes 2-1 in a position close to vertical with an inclination towards the lower left corner. The pneumatic cylinder 12 of the workpiece fixation device brings the workpiece fixation device 11 to the working area of the pallets at a predetermined initial position corresponding to the initial position of the workpiece on the coordinate table in the processing zone (Fig.6).

Thus, the position of the installed rectangular billet sheet material 3 is uniquely fixed relative to the pallet 2-1 (Fig.7).

The loading device is rotated together with the pallet and the workpiece in a horizontal position with an inclination towards the coordinate table. The device 11 for fixing the initial position of the workpiece leaves the working area. All elements came to the position shown in figure 1, and the cycle repeats.

When laser cutting of organic materials, for example, plastics, plywood, wood, ignition of gaseous products of laser processing from the bottom of the processed sheet under the action of laser radiation often occurs. To prevent this, the installation is equipped with a means of supplying compressed air to the cutting zone, with which air is blown from the lateral edges of the working field into the cutting zone to blow off the flame.

This means of supplying compressed air to the cutting zone can be made in the form of two nozzles (not shown in the drawings) mounted on both sides of the processing zone with the possibility of moving them along one of the coordinates synchronously with the cutting head. Blowing is carried out from the edge of the table, closer to which the laser head is currently located.

The laser coordinate table is enclosed in a sealed enclosure 13 to prevent the penetration of gaseous laser treatment products into the workroom. The evacuation of these products for subsequent filtration is carried out using a fan through an opening located on one of the sides of the housing, in Fig. 8 - to the left. When moving the pallet with the cut out parts (the upper one in Fig. 8) to the loading device, it passes through a relatively narrow slot closed by the shutter 14, in which an air flow is generated, directed into the sealed enclosure due to the discharge created by the fan. In this case, intensive blowing of the pallets with cut out parts and the final cleaning of the pallets and parts from gaseous laser processing products occur.

Claims (5)

1. Installation for laser processing, including a laser, an optical system for transmitting radiation to the cutting head, a control system, moving mechanisms of the cutting head in the upper part of the processing zone and two transportable pallets equipped with transportation systems for placing the processed sheet material on them, pallet feeding mechanisms to loading, processing and unloading zones, pneumatic cylinders for moving these pallets from one transportation system to another, for lowering, raising and turning pallets vector of movement in the loading position of the processed sheet material, wherein one of the transport systems and mechanisms for supplying pallets to the treatment zone and discharging placed on top of the treatment zone and the second transportation system and the pneumatic lifting and moving the pallet - in the bottom. 2. Installation according to claim 1, characterized in that it is equipped with means for supplying compressed air to the cutting zone. 3. The installation according to claim 2, characterized in that the means for supplying compressed air to the cutting zone is made in the form of two nozzles mounted on both sides of the processing zone with the possibility of moving them along one of the coordinates synchronously with the cutting head. 4. Installation according to claim 1, characterized in that the treatment area is sealed and equipped with an exhaust ventilation system. 5. Installation according to claim 4, characterized in that the windows for entry and exit of the pallet from the processing zone are equipped with elastic curtains.