RU2151758C1 - Detonating cord and method for manufacture of detonating cord - Google Patents

Abstract

FIELD: blasting works, in particular, setting of blasting system. SUBSTANCE: detonating cord is formed in situ and has explosive substance making core of cord and used in liquid aggregate state. Minimum diameter of core is up to 1 mm. Explosive is produced in situ by mixing liquid components in predetermined ratio. Method involves cutting waterproofing casing of required length, with material of casing being temporarily resistant to explosive components and to explosive substance itself; connecting one end of casing to discharge pipe of vessel with ready explosive substance in liquid aggregate state; filling casing with explosive substance by gravity or under low pressure while forcing out air from it; sealing free end of casing, when liquid appears in this end, and adding required amount of liquid explosive; disconnecting other end of casing from vessel pipe and sealing disconnected end of casing. EFFECT: simplified and safe method and operation. 6 cl

Description

1. The technical field to which the invention relates.
The invention relates to the field of explosives and may find application in the organization of explosive networks.

2. The level of technology
Detonating cords, as well as other means of detonation (electric detonators, detonator caps, fire-conducting cords), are widely used in explosives and are well known [1-4]. They are used to carry out a simultaneous explosion from several charges to several hundred charges, as well as for capsuleless explosion of charges.

 Since 1973, the Nonel system waveguide tube [5], developed by Nitro Nobel, has been known. Nonel’s waveguide tube is made of special grades of plastic, on the inner surface of which an octogen and aluminum powder is applied in a thin layer, leaving the tube indestructible during detonation. Similar systems have recently been developed in Russia.

 The detonating cord (LH) consists [1] of the core of a blasting explosive (TEN) with two guiding threads and a number of internal and external braids covered with a moisture insulating sheath.

 The detonating cords (DS) we have taken as a prototype are [4] flexible elongated devices consisting of the core of a powerful blasting explosive that detonates without fail in an elongated charge of small diameter, several braids from cotton or synthetic yarn with a moisture-insulating outer coating: it is also possible a sheath made of a polyethylene composition or plastic compound.

 LHs produced differ in power, frost and water resistance, and also in other operational indicators. Among the well-known brands of DSH should be called DSH-A, DSH-V, DSHE-12, DSHE-12G (hexogen), etc.

 The production of each brand of DSh has its own characteristics, but each requires a fairly complex and bulky factory equipment.

 So, the DSH-A procurement technology is carried out [4] in two lines on an aggregate consisting of three types of equipment: a braiding machine with three disks, a bath of waterproofing coating and a receiving station. The unit is equipped with built-in local suction devices, a device for monitoring the diameter of the cord, a sensor for monitoring breakage of threads and double-acting detonation breakers.

 Before starting work, the threads are threaded on both lines of the unit, they are passed through moisture-proof baths and fixed at the receiving station. Then, an installation hitch of explosives (12.5 g) is poured into the funnel and evenly distributed along the length of the cord of 1 m. After that, 2 kg of explosives are poured into the funnels of the braiding machine on both lines and the unit is turned on. After triggering 6 kg of explosives on each line, the coils with the main gun are removed from the receiving station and sent using an overhead conveyor to the intermediate storage cabin or directly to the workplace for inspecting and cutting products, where they are rewound from the coil at the unwinding station of the machine to the coil of the receiving station, eliminating the detected defects with a cord diameter gauge. Using a meter counter, record the length of the cord in the bay. The wound coils of the cord are removed from the coils and seal the ends of the LH with caps, and the ends of the LH-A with mastic. The bays are wrapped in paper and sent to the packaging.

The production of DSh-V at the first stage is almost identical to the production of DSh-A, however, from the intermediate storage cabin, the DSh coils are transferred [4] to the plastic sheathing cabin, where an PE 32x25 or LSh-63 worm press is installed. A working tool (mandrel, matrix) is placed in the press head and the temperature is maintained at 118-137 ^o C. Plastic granules are loaded into the press hopper, the empty (without explosives) end of the cord from the coil is pulled to the press head and connected to the end of the refueling cord passed through cooling baths with water. Turn on the receiving-pulling station, and then the press. A blower operates for final cooling and drying of the cord. Further inspection, elimination of defective areas, sealing the ends with caps and packaging.

Thus, despite some diversity in the nomenclature of LH produced by the industry, it can be noted that the common thing for all of them is:
a) their technically complex factory production;
b) the use of a solid aggregate state (TENA, RDX, and some other explosives with a small critical diameter) as the explosive core core of explosive materials;
c) the need to carry out operations with explosive materials for loading, transportation, unloading, warehousing, accounting, destruction, etc.

 The proposed technical solutions make it possible to abandon the factory production of DS and exclude from the process of organizing blasting operations a number of operations related to loading, transportation, unloading, warehousing, accounting and destruction of DS.

3. The invention
The essence of the invention lies in the fact that LH is formed at the place of blasting, while the explosive of a liquid state of aggregation is used as its core.

Thus, the Kvazar-DS detonating cord, which is a flexible elongated device consisting of a moisture-proof shell filled with a powerful explosive (BB), which is the core of the device, is characterized in that the shell is made of resistant or temporarily resistant to the components of the explosive and the explosive itself material, for example polymeric, and is filled with an explosive liquid of an aggregate state with an upper limit of the critical diameter d _cr ≤ 1 mm. The cord is formed at the place of blasting. The use of the Quasar-DSH VVZHIMI as an explosive is of interest due to the fact that it is itself prepared at the blasting site by mixing in a given ratio the liquid components that make up it.

 A method of manufacturing a detonating cord Kvazar-DSh, which is a flexible elongated device, including filling the shell with explosive (BB), characterized in that the filling is carried out at the place of blasting, while moisture-resistant or temporarily resistant to the components of the explosive and the explosive itself is cut off (tube, hose, cambric) of the required length, connect one of its ends to the drain fitting of the vessel with a ready-made explosive of a liquid state of aggregation and by gravity or forcibly fill the shell (tube, lang, cambric), squeezing out air from there, while after the appearance of liquid on the free end of the shell (tube, hose, cambric), it is sealed and replenished by the shell (tube, hose, cambric), then the other end of the shell is disconnected from the nozzle of the vessel and sealed off end. In the case of using low-boiling liquids as explosives, if necessary, before filling and / or in the process of filling the shell, either the explosive itself or the shell being filled (tube, hose, cambric) are cooled.

 When used as an explosive, the Quasar-DSH VVZHIMI is prepared at the blasting site, for example, in a vessel from which the shell (tube, hose, cambric) of the Quasar-DS is then filled by mixing liquid components in a predetermined ratio of explosive components.

4. Information confirming the possibility of carrying out the invention
The detonating cord Kvazar-DSh, manufactured by the proposed method, was tested in the process of fulfilling the production task of destroying the reinforced concrete foundation of the melting furnace in the casting shop LSH-2 AMO ZIL. The inner diameter of the LH shell was 3 mm; the core was filled with VVZhMSh. With the use of Quasar-DSh, at first one blast hole was blown up, and then immediately eight blast holes, confirming the possibility of implementing the technical solutions outlined.

5. Sources of information
1. Guide to subversive work. Military Publishing House of the Ministry of Defense of the USSR, M, 1969, p. 50-56.

 2. Epov B.A. Explosive basics. Military Publishing House of the Ministry of Defense of the USSR, M, 1974, p. 68-72.

 3. Pozdnyakov Z. G., Rossi BD Handbook of industrial explosives and explosives. M, "Nedra", 1977, p. 234-235.

 4. Schukin Yu.G., Lyutikov G.G., Pozdnyakov 3.G. Means of initiation of industrial explosives. M, "Nedra", 1996, p. 69-75.

 5. Advertising Prospectus of the company Nitro Nobel (Dyno Explosives Group), 1995.

Claims (6)

 1. Detonating cord, which is a flexible elongated device consisting of a moisture-proof shell filled with a powerful explosive (BB), characterized in that the shell is made of a material resistant or temporarily resistant to the components of the explosive and the explosive itself and filled with an explosive liquid of an aggregate state with the upper limit of the critical diameter d cr ≤ 1 mm  2. Detonating cord according to claim 1, characterized in that the explosive, for example, explosive, is formed by mixing in a predetermined ratio of its constituent liquid components, and the shell is made of a moisture-proof material, for example, polymeric.  3. A method of manufacturing a detonating cord, which is a flexible elongated device, including filling the shell with explosive (BB), characterized in that the filling is carried out at the place of blasting, which cut off the waterproof or temporary resistant to the components of the explosive and the explosive shell itself required lengths, connect one of its ends to the drain fitting of the vessel with a ready-made explosive of a liquid state of aggregation and by gravity or forcefully fill the shell with explosive, and after detecting fluid at the free end of the shell was sealed and refilled with its shell, after which the other end is detached from the spout of the vessel shell and sealed it.  4. The method according to claim 3, characterized in that the explosive liquid state of aggregation, for example, explosives are prepared at the place of blasting by mixing in a predetermined ratio of the components of the explosive liquid components, for example, in a vessel from which the shell of the detonating cord is then filled.  5. The method according to claim 3, characterized in that a tube, hose or cambric is used as a waterproof shell.  6. The method according to claim 3, characterized in that before filling the shell with explosive and / or in the process of filling it, either the explosive itself or the shell to be filled is cooled.