CN111472773B - Composite liquid rock breaking rod for generating controllable shock waves and manufacturing method thereof - Google Patents

Abstract

The invention relates to a composite liquid rock breaking rod for generating controllable shock waves and a manufacturing method thereof, and aims to solve the problem that mining of mineral resources is restricted due to the fact that mining of the mineral resources by metal wire electric explosion has the defect of low electric energy storage density. According to the composite liquid rock breaking rod for generating the controllable shock wave, the outer shell and the inner tube are both hollow straight tubes with two closed ends; the outer shell and the inner tube are coaxially sleeved, the outer diameter of the outer shell is 35-40mm, the length of the outer shell is 380-430mm, the metal wire is arranged along the axial lines of the outer shell and the inner tube, and two ends of the metal wire extend out of the outer shell and are fixedly installed; the inner tube is filled with powdery energetic materials, and a liquid energetic material is filled between the inner tube and the outer shell. The manufacturing method of the composite liquid rock breaking rod for generating the controllable shock wave comprises the steps of preparing each component, assembling the metal wire, the end head of the inner pipe and the inner pipe, filling the powdery energetic material into the inner pipe and packaging the powdery energetic material through the end head of the inner pipe, assembling the inner pipe, the end cover and the straight pipe, filling the liquid energetic material into the straight pipe and packaging the straight pipe through the end cover.

Description

Composite liquid rock breaking rod for generating controllable shock waves and manufacturing method thereof

Technical Field

The invention belongs to the technical field of mineral resource exploitation, and particularly relates to a composite liquid rock breaking rod for generating controllable shock waves and a manufacturing method thereof.

Background

Mineral resources are an important material basis for economic and social development, and at present, no matter metal minerals, nonmetal minerals or building stones are difficult to mine in conventional tools due to high hardness, so that an explosive blasting mode is mainly adopted in actual mining. Although the explosive and other initiating explosive have great technical advantages in rock breaking operation, the explosive blasting and rock breaking not only seriously threatens the life safety of production personnel, but also has the defect of poor environmental protection, so that the control on rock breaking mining by using the explosive is more and more strict, and further the mining of mineral resources is restricted.

At present, the metal wire electric explosion which is different from the technology of generating shock waves by chemical explosion is adopted, so that the metal wire electric explosion is more environment-friendly and safer; the plasma arc channel is formed by adopting metal wire electric explosion, and the generated plasma arc rapidly heats, gasifies and expands the surrounding water medium in the follow-up strong discharge current through the Joule heating principle, so as to push the peripheral water to generate spherical wave shock waves. However, when the shock wave generated by the metal wire electric explosion is directly applied to rock breaking, the pulse power driving source with larger volume has to be adopted due to lower electric energy storage density, so that the metal wire electric explosion is not beneficial to being used in a complex surface environment, and in an underground mine hole developed by metal mines, the application of the metal wire electric explosion in the field is limited due to the large volume of the pulse power driving source.

Disclosure of Invention

The invention aims to provide a composite liquid rock breaking rod for generating controllable shock waves, which aims to solve the problem that mining of mineral resources is restricted due to the fact that mining of the mineral resources by metal wire electric explosion has the defect of low electric energy storage density.

The second purpose of the invention is to provide a method for manufacturing the composite liquid rock breaking rod for generating controllable shock waves, so that the method can be applied to more complex and narrower environments by lengthening an output cable of a pulse power driving source and reducing output current.

In order to achieve the first object, the solution of the invention is:

a composite liquid rock breaking rod for generating controllable shock waves comprises a shell, a metal wire and an inner tube, wherein the shell and the inner tube are both hollow straight tubes with two closed ends; the outer shell and the inner tube are coaxially sleeved, the outer diameter of the outer shell is 35-40mm, the length of the outer shell is 380-430mm, the outer diameter of the inner tube is 8-10mm, the length of the inner tube is 380-430mm, the metal wire is arranged along the axial line of the outer shell and the inner tube, and two ends of the metal wire extend out of the outer shell and are fixedly installed; the inner tube is filled with powdery energetic materials, and a liquid energetic material is filled between the inner tube and the outer shell.

Preferably, the shell comprises a straight pipe and end covers inserted at two ends of the straight pipe, and the straight pipe is of a tubular structure made of metal materials; the end cover is made of a non-metal material, a round hole is formed in the center of the end cover, the inner pipe is inserted into the straight pipe through the round hole, the inner pipe is made of glass, inner pipe end heads are arranged at two ends of the inner pipe, and the end parts of the inner pipe end heads are flush with the end faces of the end cover; the end of the inner pipe is provided with a through hole with the inner diameter of 0.3-0.8mm along the axis.

Preferably, the diameter of the metal wire is 500-800 μm, and the material is tungsten or tantalum.

Preferably, the outer diameter of the shell is 38mm, the length is 400mm, and the wall thickness of the shell is 1 mm; the outer diameter of the inner pipe is 8mm, and the length of the inner pipe is 400 mm.

Preferably, the powdery energetic material comprises 20-30% of aluminum powder, 65-75% of ammonium perchlorate or potassium perchlorate and 3-5% of paraffin wax by mass, and the packing density of the powdery energetic material is 1.0-1.2 g/cm³The loading amount is 8-10 g.

Preferably, the liquid energetic material comprises 95 mass percent of nitromethane and 5 mass percent of ethylenediamine.

Preferably, the outer surface of the straight pipe is provided with a plurality of rows of groove body aggregates along the axial direction of the straight pipe, and each row of groove body aggregate comprises a plurality of rectangular grooves arranged along the circumferential direction of the straight pipe.

To achieve the second object, the solution of the present invention is: the manufacturing method of the composite liquid rock breaking rod for generating the controllable shock wave comprises the following steps;

s1, processing two end covers by adopting a polyether-ether-ketone bar, processing a straight pipe by adopting a soluble aluminum-magnesium alloy pipe, and processing a rectangular groove on the outer surface of the processed straight pipe;

s2, passing a metal wire through the inner pipe body, passing one end of the metal wire through a through hole of one of the inner pipe end heads, firmly adhering the end head with the inner pipe end head by adopting an adhesive, and inserting the inner pipe end head into the end part of the inner pipe in a spinning way;

s3, mixing aluminum powder, ammonium perchlorate or potassium perchlorate and paraffin in a container uniformly to complete the preparation of the powdery energetic material;

s4, filling the powdery energetic material into the inner tube and tamping;

s5, the other end of the metal wire penetrates through the other end of the inner pipe, glue is coated on the side face of the end of the inner pipe, the metal wire is inserted into the end of the inner pipe in a spinning mode, then the metal wire is straightened, and an adhesive is coated on the through hole of the end of the inner pipe;

s6, mixing the nitromethane and the ethylenediamine uniformly in a container to complete the preparation of the liquid energetic material;

s7, coating adhesive on one end of the inner tube, inserting the inner tube into the round hole of one end cover, and enabling the metal wire to extend to the outer side of the end cover, wherein the end part of the inner tube is flush with the end face of the end cover; coating adhesive on the side surface of the end cover, screwing the end cover into one end of the shell, and leading the inner tube and the metal wire out of the other end of the shell;

s8, injecting liquid energetic materials into the shell, coating adhesive on the end part of the inner pipe and the side surface of the other end cover, enabling the metal wire to penetrate through the round hole of the end cover, screwing the end cover into the shell, penetrating the end part of the inner pipe into the round hole of the end cover, coating the adhesive on the end cover for packaging, and completing the manufacturing of the rock breaking rod.

Preferably, the method further comprises the following steps:

after the adhesive is completely solidified, sending the prepared rock breaking rod into a pressure container, injecting water into the container, and pressurizing the container to 1Mpa for 5 hours;

and (4) taking the rock breaking rod out of the pressure container, and checking whether the adhesive surface has water seepage, wherein the water-impermeable rock breaking rod is a qualified product.

Preferably, the method further comprises the following steps:

the energy storage is used as a 100kJ pulse power driving source, a driving experiment is carried out on the rock breaking rod under the conditions that the rated working voltage is 30kV and the pulse current is 80kA, and the rock breaking rod capable of being detonated is a qualified product.

The invention has the beneficial effects that:

1. according to the composite liquid rock breaking rod for generating the controllable shock waves, only when the rock breaking rod is under a strong current of 80kA and lasts for more than 100 mu s, the shock waves generated by electric explosion can be initiated and stronger shock waves are generated for rock breaking, so that the rock breaking rod is high in safety in the using process.

2. The composite liquid rock breaking rod for generating the controllable shock wave provided by the invention can be suitable for mining mineral resources, can further improve the mining efficiency and safety of the mineral resources, is expected to thoroughly replace initiating explosive devices used in mining the mineral resources, and has good economic and social benefits.

3. The composite use of the powdery energetic material and the liquid energetic material reduces the requirement of the pulse power driving source for outputting driving current, and the same rock breaking effect can be achieved by reducing the output current from 80kA to 60 kA; the pulse power driving source for driving the composite rock breaking rod in the energy converter is connected with the console in parallel through the lengthened output cable, so that centralized control of multiple pulse power driving sources can be realized, and further, workers can control the blasting time of the composite rock breaking rod conveniently.

4. The final product of the thermal decomposition process of nitromethane and ethylenediamine in the raw materials of the composite liquid rock breaking rod for generating the controllable shock wave is H₂O and CO₂And the environment is not polluted. Therefore, the problem of toxic gas generated during blasting of initiating explosive devices can be avoided, and the environmental protection property of mineral resource exploitation is further improved.

5. According to the manufacturing method of the composite rock breaking rod for generating the controllable shock wave, the end head of the inner pipe, the end cover and the straight pipe, the metal wire, the end cover and the end head of the inner pipe are bonded and sealed through the adhesive, so that the problem of water seepage cannot occur when the rock breaking rod is used underwater, and the detonation effect is further ensured; the metal shell is filled with liquid energetic materials, so that the internal and external water pressures of the rock breaking rod are balanced, and water in the shaft is prevented from entering the interior of the rock breaking rod.

6. According to the manufacturing method of the composite rock breaking rod for generating the controllable shock wave, the powdery energetic material, the liquid energetic material and the filling mode are easier to detonate by the metal wire, and the powdery energetic material and the liquid energetic material can react more fully in the driving reaction process.

Drawings

FIG. 1 is a cross-sectional view of a composite fluid breaking bar for generating controlled shock waves in accordance with the present invention;

FIG. 2 is a schematic diagram of the external structure of a composite liquid rock breaking rod;

fig. 3 is a schematic structural view of the end cap.

The reference numbers are as follows:

1-outer shell, 2-metal wire, 3-inner tube, 4-powdery energetic material, 5-liquid energetic material, 6-straight tube, 7-inner tube end and 8-end cover.

Detailed Description

The present invention will be described in further detail with reference to the following specific examples:

a composite liquid rock breaking rod for generating controllable shock waves is shown in figures 1 to 3 and comprises an outer shell 1, a metal wire 2, an inner tube 3, a powdery energetic material 4 and a liquid energetic material 5.

The shell 1 is a hollow straight pipe with two closed ends; the outer diameter of the shell 1 is 38mm, the length is 400mm, and the wall thickness is 1 mm; the housing 1 comprises a straight tube 6 and an end cap 8.

The straight pipe 6 is a tubular structure made of soluble aluminum magnesium alloy, and the aluminum magnesium alloy can improve the structural strength of the rock breaking rod, so that the rock breaking rod is convenient to load and transport. As shown in figure 2, the outer surface of the straight pipe 6 is provided with a plurality of rows of groove body aggregates along the axial direction, each row of groove body aggregates comprises a plurality of rectangular grooves arranged along the circumferential direction of the straight pipe 6, as shown in figure 2, the appearances of the rectangular grooves are longitudinal grooves and circumferential grooves, and the rectangular grooves can be used for controlling the shell 1 to be fried into fragments with set sizes according to the depth and the width of the grooves when a rock breaking rod explodes.

The number of the end covers 8 is two, the end covers 8 are inserted into two ends of the straight pipe 6, the end covers 8 are made of polyether-ether-ketone bars, the polyether-ether-ketone bars are made of non-metal materials, namely insulating materials, the polyether-ether-ketone bars can play a good sealing effect and are non-conductive, a round hole is formed in the center of each end cover 8, and the inner diameter of the round hole is matched with the outer diameter of the inner pipe 3.

The inner pipe 3 is a hollow straight pipe with two closed ends; the outer diameter of the inner pipe 3 is 8mm, and the length is 400 mm; the inner tube 3 is made of glass; inner pipe end heads 7 are arranged at two ends of the inner pipe 3, one end of each inner pipe end head 7 is inserted into the end part of the inner pipe 3, and the outer diameter of the other end of each inner pipe end head 7 is equal to that of the inner pipe 3; the inner tube end 7 is provided with a through hole with the inner diameter of 0.5mm along the axis.

The shell 1 is sleeved outside the inner pipe 3, the shell 1 is coaxial with the inner pipe 3, the end parts of the inner pipe end head 7 and the inner pipe 3 are located in the round hole, and the end part of the inner pipe end head 7 is flush with the end surface of the end cover 8.

The metal wire 2 is arranged along the axis of the inner tube 3, and two ends of the metal wire extend out of the end head 7 of the inner tube and are fixedly installed; the inner tube end 7 and the inner tube 3, the end cover 8 and the straight tube 6, and the metal wire 2 and the end cover 8 and the inner tube end 7 are bonded and sealed by the adhesive, so that the water seepage problem can not occur when the rock breaking rod is used in water, and the detonation effect is further ensured.

The diameter of the metal wire 2 is 600 μm, and the material is tantalum. The powdery energetic material 4 is filled between the metal wire 2 and the inner tube 3, the liquid energetic material 5 is filled between the inner tube 3 and the outer shell 1, and the metal outer shell is filled with the liquid energetic material 5, so that the internal and external water pressures of the rock breaking rod are balanced, and the water in the shaft cannot enter the interior of the rock breaking rod.

The metal wire 2 drives the powdery energetic material 4 and the liquid energetic material 5 with different masses to generate shock waves to act on an ore body, the energy generated by the rock breaking rod can be set according to actual requirements, and further the ore body can be fully exploited, meanwhile, the safety problem caused by difficulty in control during blasting of initiating explosive devices is avoided, the pulse power driving source of the composite rock breaking rod in the driving energy converter is connected with the control console in parallel through the lengthened output cable, the centralized control of multiple pulse power driving sources can be realized, the time of the shock waves can be easily controlled through metal wire driving, and further, the safety in the exploitation process is improved, and the life safety of production personnel is guaranteed.

The powdery energetic material 4 comprises 24 mass percent of aluminum powder, 73 mass percent of strong oxidant ammonium perchlorate and 3 mass percent of insensitive agent paraffin. The packing density of the powdery energetic material 4 is 1g/cm3, and the packing amount is 10 g; the liquid energetic material 5 comprises 95 mass percent of nitromethane and 5 mass percent of ethylenediamine. Therefore, compared with a rock breaking rod which only adopts powdery energetic materials, solid energetic materials or liquid energetic materials, the composite rock breaking rod can realize the adoption of a pulse power driving source with smaller volume and weight by reducing the driving current, and therefore, the composite rock breaking rod can be suitable for narrower mine holes and more complex areas.

Through the use of the rock breaking rod, the limit on the energy storage and the size of the pulse power driving source is reduced, the defect that the electric energy storage density is lower when the shock wave is generated through metal wire electric explosion is overcome, and the shock wave rock breaking technology can be applied to more occasions and fields.

The manufacturing method of the composite liquid rock breaking rod for generating the controllable shock wave comprises the following steps;

s1, processing two end covers 8 by adopting a polyether-ether-ketone bar, processing a straight pipe 6 by adopting a soluble aluminum-magnesium alloy pipe, and processing a rectangular groove on the outer surface of the processed straight pipe 6;

s2, the metal wire 2 penetrates through the inner tube 3 body, one end of the metal wire 2 penetrates through a through hole of one inner tube end head 7 and is firmly adhered to the inner tube end head 7 by adopting an adhesive, and the inner tube end head 7 is inserted into the end part of the inner tube 3 in a spinning way;

s3, mixing aluminum powder, ammonium perchlorate and paraffin in a container uniformly to complete the preparation of the powdery energetic material 4;

s4, filling the powdery energetic material 4 into the inner tube 3 and tamping, wherein the filling density is 1/cm3, and the filling amount is 10 g;

s5, the other end of the metal wire 2 penetrates through the other inner tube end 7, the side surface of the inner tube end 7 is coated with glue and is inserted into the end part of the inner tube 3 in a spinning mode, then the metal wire 2 is straightened, and an adhesive is coated at the through hole of the inner tube end 7;

s6, mixing the nitromethane and the ethylenediamine uniformly in the container according to the proportion to complete the preparation of the liquid energetic material 5;

s7, coating adhesive on one end of the inner tube 3 and inserting the inner tube into the round hole of one end cover 8, so that the metal wire 2 extends to the outer side of the end cover 8, and the end of the inner tube 3 is flush with the end face of the end cover 8; coating adhesive on the side surface of the end cover 8, screwing the end cover into one end of the shell 1, and leading out the inner tube 3 and the metal wire 2 from the other end of the shell 1;

s8, injecting 360g of liquid energetic material 5 into the shell 1, coating adhesive on the end part of the inner pipe 3 and the side surface of the other end cover 8, penetrating the metal wire 2 through the round hole of the end cover 8, screwing the end cover 8 into the shell 1, penetrating the end part of the inner pipe 3 into the round hole of the end cover 8, and coating the adhesive on the end cover 8 for packaging, namely completing the production of the rock breaking rod.

S9, after the adhesive is completely solidified, sending the prepared rock breaking rod into a pressure container, injecting water into the container, and keeping the pressure container for 5 hours when the pressure of the container is increased to 1 Mpa;

and S10, taking the rock breaking rod out of the pressure container, and checking whether the adhesive surface has water seepage, wherein the water-impermeable rock breaking rod is a qualified product. The permeable rock breaking rod is regarded as defective and discarded.

S11, taking a rock breaking rod with 5% of primary processing amount, taking the stored energy as a 100kJ pulse power driving source, performing a driving experiment on the rock breaking rod under the conditions of rated working voltage of 30kV and output pulse current of 80kA, and taking the rock breaking rod capable of being detonated as a qualified product.

The use method of the rock breaking rod comprises the following steps: drilling a hole on the surface of the ore body; installing a four-way valve; filling the drill hole with water; connecting the rock breaking rod with a pulse power driving source; placing the rock breaking rod at a set position of the drill hole; and starting a pulse power driving source to discharge through the rock breaking rod, and blasting the ore body by using shock waves generated by the rock breaking rod.

Compared with the existing initiating explosive devices used for rock breaking, the composite liquid rock breaking rod for generating the controllable shock waves has the advantages that the energetic materials are all non-explosive materials, and only when the rock breaking rod is under the condition that the strong current is up to 80kA and lasts for more than 100 mu s, the shock waves generated by electric explosion can be detonated and stronger shock waves are generated for rock breaking, so that the rock breaking rod is high in safety in the using process.

The energetic material of different masses of wire drive produces the shock wave and acts on the ore body, makes the energy size that broken rock stick produced can set for according to actual demand, and then guarantees that the ore body can be exploited fully, and the safety problem that is difficult to control and causes when having avoided the blasting of initiating explosive device simultaneously, can easily control the opportunity of shock wave through the wire drive, and then has improved the security of exploitation in-process, has ensured producers' life safety. Therefore, the rock breaking rod can be suitable for mining mineral resources, the efficiency and the safety of mining the mineral resources can be further improved, and initiating explosive devices used in mining the mineral resources are expected to be thoroughly replaced, so that the rock breaking rod has very remarkable economic and social benefits.

The composite use of the powdery energetic material and the liquid energetic material reduces the requirement of the pulse power driving source for outputting driving current, and the same rock breaking effect can be achieved by reducing the output current from 80kA to 60 kA; the pulse power driving source for driving the composite rock breaking rod in the energy converter is connected with the console in parallel through the lengthened output cable, so that centralized control of multiple pulse power driving sources can be realized, and further, workers can control the blasting time of the composite rock breaking rod conveniently.

The end product of the thermal decomposition process of nitromethane and ethylenediamine in the rock breaking rod raw material provided by the invention is H₂O and CO₂And the environment is not polluted. Therefore, the problem that toxic gases (such as nitrogen oxides and carbon monoxide) are generated during blasting of initiating explosive devices can be avoided, the environmental protection property of mining of mineral resources is further improved, and therefore the rock breaking rod can further promote development of the mineral resources.

The inner pipe end and the inner pipe, the end cover and the straight pipe, the metal wire and the end cover and the inner pipe end are bonded and sealed by the adhesive, so that the problem of water seepage can be avoided when the rock breaking rod is used underwater, and the detonation effect is further ensured; the metal shell is filled with liquid energetic materials, so that the internal and external water pressures of the rock breaking rod are balanced, and water in the shaft cannot enter the interior of the rock breaking rod.

The proportion and the filling mode of the powdery energetic material and the liquid energetic material are easier to detonate by the metal wire, and the powdery energetic material and the liquid energetic material can react more fully in the driving reaction process. Therefore, compared with a rock breaking rod which only adopts powdery energetic materials, solid energetic materials or liquid energetic materials, the composite rock breaking rod can realize the adoption of a pulse power driving source with smaller volume and weight by reducing the driving current, and therefore, the composite rock breaking rod can be suitable for narrower mine holes and more complex areas. The rock breaking rod can directly drive energetic materials with any mass through the metal wire electric explosion plasma to generate required controllable shock waves, and can well mine mineral resources while ensuring safety, so that the efficiency and the safety of mining the mineral resources can be further improved.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to other related technical fields, are included in the scope of the present invention.

Claims (5)

1. A compound liquid rock breaking rod for generating controllable shock waves is characterized in that: the device comprises a shell (1), a metal wire (2) and an inner tube (3), wherein the shell (1) and the inner tube (3) are both hollow straight tubes with two closed ends; the outer shell (1) and the inner tube (3) are coaxially sleeved, the outer diameter of the outer shell (1) is 35-40mm, the length is 380-; the inner tube (3) is filled with powdery energetic materials (4), and liquid energetic materials (5) are filled between the inner tube (3) and the outer shell (1); the shell (1) comprises a straight pipe (6) and end covers (8) inserted at two ends of the straight pipe (6), and the straight pipe (6) is of a tubular structure made of a metal material; the end cover (8) is made of a non-metal material, a round hole is formed in the center of the end cover (8), the inner pipe (3) is inserted into the straight pipe (6) through the round hole, the inner pipe (3) is made of glass, inner pipe end heads (7) are arranged at two ends of the inner pipe (3), and the end part of each inner pipe end head (7) is flush with the end face of the end cover (8); the end head (7) of the inner pipe is provided with a through hole with the inner diameter of 0.3-0.8mm along the axis; the diameter of the metal wire (2) is 500-800 μm, and the material is tungsten or tantalum; the wall thickness of the shell (1) is 1 mm; the powdery energetic material (4) comprises 20-30% of aluminum powder, 65-75% of ammonium perchlorate or potassium perchlorate and 3-5% of paraffin wax by mass, and the packing density of the powdery energetic material (4) is 1.0-1.2 g/cm³(ii) a The liquid energetic material (5) comprises 95% of nitromethane and 5% of ethylenediamine in mass fraction.

2. A composite liquid rock breaking rod for generating controlled shock waves according to claim 1, wherein: the outer surface of the straight pipe (6) is provided with a plurality of rows of groove body aggregates along the axial direction, and each row of groove body aggregates comprises a plurality of rectangular grooves arranged along the circumferential direction of the straight pipe (6).

3. A method of making a composite liquid rock breaking rod for generating controlled shock waves according to claim 1 or 2, comprising the steps of;

s1, processing two end covers (8) by adopting a polyether-ether-ketone bar, processing a straight pipe (6) by adopting a soluble aluminum-magnesium alloy pipe, and processing a rectangular groove on the outer surface of the processed straight pipe (6);

s2, enabling the metal wire (2) to penetrate through the inner tube (3) body, enabling one end of the metal wire (2) to penetrate through a through hole of one inner tube end head (7) and be firmly adhered to the inner tube end head (7) by adopting an adhesive, and inserting the inner tube end head (7) into the end part of the inner tube (3) in a spinning and inserting mode;

s3, mixing aluminum powder, ammonium perchlorate or potassium perchlorate and paraffin in a container uniformly to complete the preparation of the powdery energetic material (4);

s4, filling the powdery energetic material (4) into the inner tube (3) and tamping;

s5, the other end of the metal wire (2) penetrates through the other inner tube end (7), glue is coated on the side face of the inner tube end (7), the metal wire is inserted into the end part of the inner tube (3) in a spinning mode, then the metal wire (2) is straightened, and an adhesive is coated at the through hole of the inner tube end (7);

s6, mixing the nitromethane and the ethylenediamine uniformly in a container to complete the preparation of the liquid energetic material (5);

s7, coating an adhesive on one end of the inner tube (3) and inserting the inner tube into the round hole of one end cover (8) so that the metal wire (2) extends to the outer side of the end cover (8) and the end of the inner tube (3) is flush with the end face of the end cover (8); coating an adhesive on the side surface of the end cover (8), screwing the end cover into one end of the shell (1), and leading the inner tube (3) and the metal wire (2) out of the other end of the shell (1);

s8, injecting a liquid energetic material (5) into the shell (1), coating an adhesive on the end part of the inner tube (3) and the side surface of the other end cover (8), penetrating the metal wire (2) through the round hole of the end cover (8), screwing the end cover (8) into the shell (1), penetrating the end part of the inner tube (3) into the round hole of the end cover (8), coating the adhesive on the end cover (8) and packaging, and thus completing the production of the rock breaking rod.

4. A method of making a composite liquid rock breaking rod for generating controlled shock waves as claimed in claim 3, wherein: further comprising the steps of:

after the adhesive is completely solidified, sending the prepared rock breaking rod into a pressure container, injecting water into the container, and pressurizing the container to 1Mpa for 5 hours;

and (4) taking the rock breaking rod out of the pressure container, and checking whether the adhesive surface has water seepage, wherein the water-impermeable rock breaking rod is a qualified product.

5. The method of making a composite liquid rock breaking rod for generating controlled shock waves of claim 4, wherein: further comprising the steps of:

the energy storage is used as a 100kJ pulse power driving source, a driving experiment is carried out on the rock breaking rod under the conditions that the rated working voltage is 30kV and the pulse current is 80kA, and the rock breaking rod capable of being detonated is a qualified product.

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