SE451304B - DEVICE FOR BLAST TREATMENT OF MATERIALS - Google Patents

Description

15 20 25 30 35 451 304 damper position "open or closed" and prevent the explosive from exploding when the main pipeline is open.

All the circumstances lead to the device for blast treatment having lower functional safety and becoming considerably more complicated to work with.

The main object of the present invention is to provide a device for blasting material. wherein the shut-off means of the ventilation pipeline are designed in such a way. that the explosive cannot be detonated. when the pipeline is open. which in other words means that the device has higher functional safety and becomes easier to maintain and work with.

This object is achieved according to the present invention by means of a device for blasting treatment of material, which partly comprises a blasting chamber. which has a housing consisting of a movable and an immovable part, which are intended to be fastened together by means of a locking unit. and a work table arranged in the blasting chamber. which is attached to the movable part of the explosion chamber housing. and on the one hand a main pipeline intended for ventilation of the blasting chamber. which is connected to the blasting chamber and in which a shut-off means is arranged, which comprises a housing built into the main pipeline, which contains a movably arranged sliding damper for closing the main pipeline, the device according to the present invention being characterized in that the housing of the shut-off means is mechanical connected to the immovable part of the housing of the explosive chamber, while the sliding damper movably arranged in the housing of the shut-off member is mechanically connected to the movable part of the housing of the explosive chamber. that the ventilation pipeline is closed. at the same time as the movable part and the immovable part of the blast chamber housing are connected to each other.

It is suitable that the housing of the shut-off member is attached to the immovable part of the housing of the blasting chamber inside the immovable part W1 15 20 25 30 35 451 304 and that the sliding damper movably arranged in the housing of the shut-off member is attached to the work table.

Such a constructive design of the device for blasting treatment of material proposed according to the present invention contributes to the device having the desired functional safety, at the same time as the device becomes easier to maintain.

The invention is described in more detail below with reference to the accompanying drawing, in which Fig. 1 schematically shows a longitudinal section through the device according to the present invention for blasting material in a position in which the movable and the immovable part of the blast chamber housing are closed. Fig. 2 shows on an enlarged scale a portion A marked in Fig. 1, Fig. 3 shows a longitudinal section through the device shown in Fig. 1 at a time when the blasting chamber is ventilated, Fig. 4 shows a section along the line IV-IV in Fig. 1 and Fig. 5. shows a longitudinal section through. the device shown in Fig. 1, when the movable and the immobile part of the explosion chamber housing are open.

The device according to the present invention for blasting treatment of material comprises an blasting chamber 1 (Fig. 1), the housing of which consists of a movable part 2 and an immobile part 3, which are intended to be fastened together by means of a locking unit 4 of bayonet type. Arranged in the blasting chamber 1 is a work table 5, which is attached to the movable part 2 of the housing of the blasting chamber 1. The blasting chamber 1 is connected to a main pipeline 6 for ventilating the chamber 1. In the main pipeline 6 a shut-off means 7 is arranged.

The shut-off member 7 comprises a housing B. built into the main pipeline 6 inside the explosion chamber 1, which is mechanically connected to the immovable part 3 of the housing of the explosion chamber 1. In this embodiment of the device according to the present invention, the housing 8 of the shut-off member 7 is attached to the immovable part 3 of the housing of the blasting chamber 1 inside the blasting chamber 1 (inside the immobile part 3).

In a groove 9 (Fig. 2) accommodated in the housing 8 of the shut-off member 7, a sliding damper 10 is movably arranged which is intended to close the ventilation pipeline 6 and is mechanically connected to the movable part 2 of the housing of the blasting chamber 1 in such a way. that the pipeline 6 is closed, at the same time as the movable part 2 is connected to the immovable part 3 of the housing of the blasting chamber 1, as shown in Fig. 1. In this embodiment of the device according to the present invention, the sliding damper 10 (Figs. 1 and 2) is attached to the work table. 5.

The immovable part 3 (Fig. 1) of the housing of the bounce chamber 1 is arranged on support means 11, which are supported by a foundation 12.

The movable part 2 of the housing of the explosive chamber 1 is movable by means of a hydraulic cylinder 13 supported by the foundation 12, the piston rod 14 (Fig. 3) is operatively connected to a carriage 15 movable on the foundation 12, whereupon the movable part 2 of the housing of the explosive chamber 1 is attached.

Inside the blasting chamber 1 (Fig. 4), the ventilation pipeline 6 after the shut-off means 7 is provided with two curved pipe sections 16 for extracting the blasting products from different parts of the inner volume of the chamber 1.

The device for blasting of materials proposed according to the present invention operates in the following manner.

With the movable part 2 (Fig. 5) and the immovable part 3 of the housing of the chamber 1 in the open (disassembled) position, the material is placed. to be blasted. an explosive and a detonating means, which in the drawing have a common reference numeral 17, on the work table 5. The movable part 2 of the housing of the explosion chamber 1 together with the work table 5 and the material 17 to be blasted are then moved by means of the carriage 15 and the hydraulic cylinder 13 on the foundation 12 until the part 2 is connected to the immovable part 3 of the blasting chamber 10 15 20 25 30 35 451 304 maren 1 housing, as shown in Fig. 1. In this position the parts 2 and 3 are fastened to a single construction unit by means of the locking unit 4. With the parts 2 and 3 of the housing of the blasting chamber 1 in this position, the sliding damper 10 of the shut-off member 7 is inserted into the groove 9 accommodated in the housing 8 of the shut-off member 7, thereby closing the ventilation duct 6 fig 2). whose thickness is 1-2 mm.

The thickness of the gap 6 should be chosen so that the explosive products - after the explosive has exploded in the chamber 1 - should be able to move in the pipeline 6 at a permitted speed of between 8 and 12 m / s. at which one arranged in the pipeline 6. a fan not shown in the drawing for extraction of the blasting products from the blasting chamber 1 is guaranteed to function.

When the explosive explodes, an overpressure for the explosive products is obtained in the housing of the explosive chamber 1. which acts so that the blasting products are displaced through the gap 8 to the pipeline 6 until the pressure in the housing of the blasting chamber 1 becomes equal to the atmospheric.

The locking unit 4 (fig. 3) is then opened and the movable part 2 of the housing of the blasting chamber 1 is moved by means of the hydraulic cylinder 13 a distance B which is slightly greater than the length of the sliding damper 10, at the same time as the sliding damper 10 of the closing member 7 leaves it in the housing 8 of the closing member 7. occupied the track 9 and opens the ventilation pipe 6 to its full flow surface. The latter is determined by the time. which is required for the blasting chamber 1 to be able to be cleaned from the blasting products (the larger the flow area of the pipeline 6, the shorter the cleaning time for the blasting chamber 1 from the blasting products).

The blasting products are extracted from the housing of the blasting chamber 1 by means of the fan arranged in the pipeline 6, whereby clean air is fed into the housing of the blasting chamber 1 through the gap between the movable part 2 and the immobile part 3 of the housing 1 of the chamber 1 by means of arrows C suggested direction. After a certain cleaning time, the movable part 2 of the blast chamber 1 housing is moved by means of the hydraulic cylinder 13 and the carriage 15 on the foundation 12 to the open position, as shown in Fig. 5. The blast-treated material 17 is removed from the work table 5. after which the new material is placed on work table 5 and the workflow is repeated.

The device for blasting treatment of material proposed according to the present invention makes it possible to prevent the explosive in the blasting chamber from possibly exploding. when the ventilation duct is open. This helps to eliminate the emergence of emergencies. when the blasting products - initiated immediately after the blasting of the explosive - flow out of the house of the blasting chamber through the entire flow surface of the pipeline at a flow rate which is considerably higher than the permitted outflow velocity. which causes the fan to break and the shock wave to leave the chamber. Nor does the device according to the present invention have to use an individual drive device for moving the sliding damper of the shut-off member. since this is movable by means of the hydraulic cylinder for moving the movable part of the explosion chamber housing. while eliminating the need to use organs. which are intended to indicate the positions of the sliding damper "open-closed" and to prevent the explosion of the explosive in the explosive chamber from being initiated when the ventilation pipeline is open.

The device according to the present invention for blasting of materials therefore has higher functional reliability and is easier to work with. p »

Claims (2)

10 15 20 25 '451 304 Patent claims 1. l. Device for blasting of materials. which partly comprises a bounce chamber (1). whose housing consists of a movable part (2) and an immovable part (3). which are intended to be fastened together by means of a locking unit (4), partly a work table (5) arranged in the blasting chamber (1), which is fastened to the movable part (2) of the housing of the blasting chamber (1), and partly a for ventilation of the main pipe (6) intended for the blasting chamber (1), which is connected to the blasting chamber (1) and in which a shut-off means (7) is arranged. which has a housing (8) built into the main pipeline (6). which contains a movably arranged sliding damper (10) for closing the main pipeline (6). t e c k n a d k ä nve - in that the housing (7) of the shut-off member (7) is mechanically connected to the immovable part (3) of the housing of the blasting chamber (1). while the sliding damper (10) movably arranged in the housing (7) of the shut-off member (7) is mechanically connected to the movable part (2) of the housing of the blasting chamber (1) so that the main pipeline (6) is closed. at the same time as the movable part (2) is connected to the immovable part (3) of the housing of the blasting chamber (1). Device according to claim 1, characterized in that the housing (7) of the shut-off means (7) is attached to the immovable part (3) of the housing of the blasting chamber (1) inside the chamber (1), while in the shut-off means (7) housing (8) movably arranged sliding damper (10) is attached to the work table (5).