PL111105B1 - Explosive charge for securing pipes in perforated bottoms of heat exchangers in particular - Google Patents

Description

The present invention relates to an explosive charge for fixing pipes in tube sheets, in particular heat exchangers. Hitherto known explosive charges for detachable fixing of tubes in tube sheets 5 nip. The heaters consist of an inertial sleeve, usually plastic, inside which an explosive is placed. The dimensions of the sleeve are selected in accordance with the dimensions of the pipes to be expensed. The ignition of charges is carried out by means of a fuse or a fuse, which is fixed in a socket, usually located in the part of the funnel which protrudes from the plane of the bottom of the screen. Provide nip. Patent description No. 72S5. The above-mentioned loads are suitable for detachable fastening of pipes only with small diameters, usually up to 20 mm. Using them to fasten pipes of larger diameters is ineffective, because as the diameter of the sleeve is increased, the amount of explosive in the charge should also be increased. However, a larger amount of explosive material would cause, during detonation, a permanent deformation of the tubesheet bridges and pipe tears outside the fastening area. Regardless of the above, it is known that when the length of the section lying in the fastening area 30 Z is significantly smaller than the diameter of the tube sheet hole, then the detonation products split mainly in the axial direction, and only to a negligible extent in the desired radial direction. The above-mentioned reasons prevent the practical application of the previously known charges for fastening large diameter pipes. It was found that by appropriate construction of the charge it is possible to the tubes with diameters of more than 100 mm should be mounted in the tube sheets. According to the invention, the load has a sleeve, inside the walls of which there is a concentric, ring-shaped channel for the explosive material, the length of this channel substantially corresponding to the length of the sleeve. The channel is connected with a socket for an igniter or fuse. Contrary to the prior art, the space surrounded by the inner wall of the sleeve remains free. The sleeve may have a uniform or variable cross-section along its length. The variability of the sleeve cross-section is due to the fact that the sleeve on the outer perimeter, aDbo in the center on the side of the channel, and also on the outer perimeter and also in the center of the channel side, has annular recesses with a cross-section of a triangle, rectangle, square or other. The variability of the sleeve cross-section on the explosive causes that, after detonation of the laminate, the pipe subjected to the expanded fastening in the mesh blast is subjected to variable loads. As a result of the variable loads, particularly tight connections between the pipes and the openings of the tube sheets are obtained. According to the invention, the channel for the explosive material is connected to the socket for the fuse or fuse, which socket may be embedded outside or in the area of the bottom of the screen wego. The socket may have conventional designs, however; that it must ensure a proper contact of the explosive contained in the sleeve with the explosive placed in the socket, in order to guarantee detonation. It has been found that a particularly advantageous structure of the charge according to the invention, in which the socket embedded outside the sieve bottom area is made in the shape of a inertial material, ending in the head in the form of a naked tube. A concentric channel for the explosive material is made in the walls of the collet, connecting with one steep channel (for the explosive material) made in a sleeve, and on the opposite side with an open tube, which is the head of the socket. The tube also houses the explosive, and in the nifm a fuse or fuse. In the case of using a socket embedded in the tube sheet area, the socket can be made, for example, in the form of two cages, made of plastic, between which a layer of explosive material. One of the disks is provided with a hole for the igniter. These disks are pressed into the securing area. The load according to the invention is shown schematically and is illustrated by way of example in the attached drawings. Fig. 1 shows a longitudinal section of the charge, in which both the sleeve and the channel on the explosive have a constant diameter, while Fig. 2 shows a longitudinal section of the charge, in which the sleeve shows a different siren. it consists of a one-sidedly closed sleeve 2 made of nip plastic material. polyethylene, PVC or vinidur, in the walls of which a channel 1 for the explosive material is made. The load is placed in the tube 3, which is located at one end in the tube sheet 4. The sleeve 2 ends at the end protruding beyond the tube sheet area with a seat 5. The seat is made in the shape of a collar of inert material, ending with a head 6 in the form of Open tube. A co-centrifugal channel 1 for the explosive material is made in the walls of the collector, connecting with the channel in the sleeve, this channel having its opening in the head 6 of the socket 5. A fuse or a fuse is placed in the head 6 of the socket 5. As already indicated above, Fig. 2 shows a charge from a sleeve 2 with a different diameter. The variable cross-section of the sleeve is obtained here by designing it on its outer circumference as well as in the center. from the channel side, ring-shaped selections 7 and 8. It is clear that the cross-sectional variation is also achieved by only one-sided selected in the sleeve, i.e. only selected 7 or selected 8. The load according to the invention is suitable for Clamping in tube sheets of both small and large diameters. The diameter of the 15 pipes to be fastened can even exceed 100 mm. This charge not only ensures tight fitting of the tube in the tube sheet, but also allows for a greater tolerance of the degree of accuracy in the execution of the holes in the bottom, compared to the previous date. Claims 1. Explosive charge for fixing pipes in tube sheets, in particular heat exchangers, consisting of a cylindrical one-sidedly rotated inertial sleeve with an explosive inserted therein, and a socket for a burner or fuse located in the area or outside the tube sheet area, characterized in that it has a sleeve (2) inside and along the walls, in which there is a concentric channel (1) for the explosive, the sleeve being connected to the socket (5) for a fuse or fuse, 2. Explosive charge according to claim 1, characterized in that the sleeve (2) has annular recesses (7) in the cross-section of a triangle, rectangle, square or other on its outer periphery. 3. Explosive charge according to claim 1, characterized in that the sleeve (2) in the center on the side of the channel (1) has annular recesses (8) of a triangular, rectangular, square or other cross-section. 4. Explosive charge according to claims 1, characterized in that the sleeve (2) has annular recesses (7) and (8) on its outer perimeter and in the center of the channel side (1) with a triangular, rectangular, square or other cross-section. 5. Explosive charge according to claims 1, characterized in that the socket (5) for a fuse or fuse is in the form of a cap made of inert material, ending on the sleeve, with a head (6) in the form of an open tube, with the inside and along the walls of the socket (5) exposed there is a concentric channel for the explosive, connecting on one side with the channel (1) for the explosive made in the sleeve (2), and on the opposite side, having an outlet in the open head (6) of the crate, in which the fuse is placed or fuse 11105 Fig. 2 PL

Claims (5)

Claims 1. Explosive charge for fixing pipes in tube sheets, especially heat exchangers, consisting of a cylindrical one-sidedly rotated inertial sleeve with an explosive inserted therein and a socket for a burner or fuse located in the area or outside the tube sheet area, characterized in that it has a sleeve (2) inside and along the walls, in which a concentric channel (1) for the explosive is made, the sleeve being connected to the socket (5) for a fuse or fuse, 2. Explosive charge according to claims 1, characterized in that the sleeve (2) has annular recesses (7) in the cross-section of a triangle, rectangle, square or other on its outer periphery. 3. Explosive charge according to claim 1, characterized in that the sleeve (2) in the center on the side of the channel (1) has annular recesses (8) of a triangular, rectangular, square or other cross-section. 4. Explosive charge according to claims 1, characterized in that the sleeve (2) has annular recesses (7) and (8) on its outer perimeter and in the center of the channel side (1) with a triangular, rectangular, square or other cross-section. 5. Explosive charge according to claims 1, characterized in that the socket (5) for a fuse or fuse is in the form of a cap made of inert material, ending on the sleeve, with a head (6) in the form of an open tube, with the inside and along the walls of the socket (5) exposed there is a concentric channel for the explosive, connecting on one side with the channel (1) for the explosive made in the sleeve (2), and on the opposite side, having an outlet in the open head (6) of the crate, in which the fuse is placed or fuse 11105 Fig. 2 PL