CN110017743B - Split type high-energy combustion destroying device suitable for different bullet diameters - Google Patents
Split type high-energy combustion destroying device suitable for different bullet diameters Download PDFInfo
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- CN110017743B CN110017743B CN201910400693.6A CN201910400693A CN110017743B CN 110017743 B CN110017743 B CN 110017743B CN 201910400693 A CN201910400693 A CN 201910400693A CN 110017743 B CN110017743 B CN 110017743B
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- 238000002485 combustion reaction Methods 0.000 title claims abstract description 39
- 238000005520 cutting process Methods 0.000 claims abstract description 23
- 239000002360 explosive Substances 0.000 claims description 22
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- ATJFFYVFTNAWJD-UHFFFAOYSA-N Tin Chemical compound [Sn] ATJFFYVFTNAWJD-UHFFFAOYSA-N 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 2
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42D—BLASTING
- F42D5/00—Safety arrangements
- F42D5/04—Rendering explosive charges harmless, e.g. destroying ammunition; Rendering detonation of explosive charges harmless
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
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Abstract
The invention discloses a split type high-energy combustion destroying device suitable for different bullet diameters, which comprises a cutting torch main body, a fixing device and a combined connecting piece, wherein the cutting torch main body comprises a cylindrical main cartridge 1; the fixture comprises a square fixed support 3 with a triangular seat 4 at the bottom. The fixed support 3 enables a reliable fixation and stable support of the single destroyer in use. When the ammunition destruction support is used, the fixed support is placed above the ammunition to be destroyed, and the triangular support at the bottom of the fixed support can play a role in stably supporting the ammunition with different calibers. The invention adopts a split design, does not need energy support such as external power supply, gas supply and the like, and can quickly and reliably burn and perforate waste ammunition with different ammunition diameter sizes.
Description
Technical Field
The invention relates to a high-energy combustion destroying device, in particular to a split type high-energy combustion destroying device suitable for different ammunition diameters, and belongs to the technical field of ammunition destroying.
Background
With the development of economy after war and the construction of society, the abandoned ammunition left over in war brings serious potential safety hazard to the normal social life of human beings. For example, 8000 thousands of landmines are still distributed in nearly 70 countries around the world at present, and about 2 thousands of civilian casualties are caused by the landmines every year. Ammunition destruction is very volume intensive. The traditional waste ammunition treatment technology mostly adopts in-situ explosion destruction, and secondary hazard effects such as shock waves, fragments, scattered objects, noise, blasting pits, blasting seismic waves and the like generated by the destruction of ammunition by an induced explosion method can generate great damage to the surrounding environment. The destruction effect can be effectively avoided by using a high-energy combustion method to destroy ammunition. In addition, in tasks such as anti-terrorism attack, emergency rescue and the like, structures including steel plates and the like also need to be broken and dismantled, the existing cutting and breaking and dismantling equipment generally has the limitations of large size, inconvenience in carrying and the like, or can be operated only by the aid of supporting equipment such as a high-pressure gas cylinder, a hydraulic device, an electric power supply and the like. Moreover, the prior destroyer is applicable to a single bullet diameter and cannot be rapidly adjusted along with different bullet diameters so as to achieve a good destruction purpose.
Disclosure of Invention
The purpose of the invention is as follows: in order to overcome the defects in the prior art, the invention provides the split type high-energy combustion destroying device suitable for different bullet diameters, which adopts a split type design, does not need external power supply, gas supply and other energy support, and can quickly and reliably burn and perforate waste ammunition with different bullet diameters.
The technical scheme is as follows: in order to solve the technical problem, the split type high-energy combustion destroyer suitable for different projectile diameters comprises a cutting torch main body, a fixing device and a combined connecting piece, wherein the cutting torch main body comprises a cylindrical main cartridge case 1, ignition devices 1-3 and a funnel-shaped energy-gathering nozzle 2 are respectively installed at the top and the bottom of the main cartridge case 1, each ignition device is an electric igniter consisting of an electric ignition head and an ignition powder, and the ignition device is arranged at the upper part of the main cartridge case and assembled with the ignition powder column 1-1 at the top end during operation. The main explosive loading cylinder 1 is filled with main explosive loading columns 1-2; the fixing device comprises a square fixing support piece 3, bolt holes 3-2 are formed in corresponding first support frame pairs 3-1 on the fixing support piece 3, first connecting heads 3-4 and first connecting clamping grooves 3-5 are formed in corresponding second support frame pairs 3-3 on the fixing support piece 3 respectively, and a triangular support 4 is arranged at the bottom of the fixing device. The fixed support 3 enables a reliable fixation and stable support of the single destroyer in use. When the ammunition destruction support is used, the fixed support is placed above the ammunition to be destroyed, and the triangular support at the bottom of the fixed support can play a role in stably supporting the ammunition with different calibers.
The energy-gathering nozzle is funnel-shaped, the material is stainless steel, and the inner wall of the funnel is coated with a graphite coating with excellent high-temperature resistance. The energy-gathering nozzle is arranged at the bottom of the main charging barrel, threads are arranged in the nozzle, and the nozzle can be screwed and fixed on the main charging barrel shell. The function of the energy-gathering nozzle is to gather the glowing metal molten flow generated by combustion, which is beneficial to heat concentration, can greatly reduce the dispersion loss of the molten flow on the convex ammunition shell, effectively improve the hot melt-through function capability, and ensure the melt-through reliability of the cutting moment to the ammunition shell. The high-temperature resistant graphite coating on the inner wall of the funnel can ensure that high-temperature molten flow generated by combustion of the high-energy combustion agent is not infiltrated into the inner wall of the funnel, and the high-temperature molten flow is easier to flow out.
Further, the triangular support 4 is provided with a first supporting leg 4-1 and a second supporting leg 4-2, and a certain included angle is formed between the first supporting leg 2-4-1 and the second supporting leg 2-4-2 and ranges from 45 degrees to 80 degrees.
Furthermore, two sides of the triangular support 4 are respectively provided with at least one clamping plate 5, and the clamping plates 5 are connected with the triangular support 4 through elastic fixing devices.
Further, one side of the clamping plate 5 facing the destroyed ammunition is provided with a clamping arc 5-1 which is matched with the radian of the destroyed ammunition, and the clamping teeth 5-2 which can increase the clamping friction force are arranged inside the clamping arc 5-1.
When the fixed support piece is arranged on the ammunition shell, the triangular opening support at the bottom of the support piece is in tangential contact with the arc-shaped ammunition body, so that the cutting moment main body sleeved in the support piece can be stably supported and fixed. Simultaneously, the height of cutting square main part can carry out upper and lower regulation according to the position on projectile body arc top, makes the spout on edge tangent with the ammunition shell under the funnel, when the scorching hot melt flow that the burning produced flows downwards, can restrict in the fritter region of spout scope basically, can effectively reduce the dispersion landing of scorching hot slag on the ammunition shell convex surface like this, is favorable to concentrating the heat and burns the drilling to the projectile body. In addition, when the ammunition to be destroyed has a bullet diameter exceeding the support legs of the triangular support, the clamping plate can further adapt to the bullet diameter with a large size and well fix the ammunition, and the combined structure of the cutting moment main body and the fixing support piece can also adapt to the destruction of ammunitions with different calibers by adjusting the fixing height of the cutting moment.
Furthermore, the combined connecting piece 6 comprises a second connecting clamping groove 6-1 corresponding to the first connecting head 3-4 and a second connecting head 6-2 corresponding to the first connecting clamping groove 3-5, the second connecting clamping groove 6-1 is connected with the second connecting head 6-2 through a connecting beam 6-3, and the length of the connecting beam 6-3 is adjustable.
Further, a cartridge top cover 1-4 with a pressure relief vent is mounted at the top of the main cartridge 1, the ignition device 1-3 extends out of the cartridge top cover 1-4, and a cartridge bottom cover 1-6 is mounted at the bottom of the main cartridge 1. The top cover of the medicine cylinder is a threaded stainless steel cover with a pressure relief air hole, is arranged at the top of the main medicine charging cylinder and can be screwed and fixed on the main medicine charging shell through threads.
Further, the main charge column 1-2 is a charge column pressed by a high-energy combustion agent, and the formula comprises 65-78% of Fe by mass2O320 to 28 percent of Al and 2 to 5 percent of epoxy resin. Pressing the combustion agent into a cylindrical explosive column with a hollow interior by adopting a manual press, wherein the outer diameter of the explosive column is 40mm, the inner diameter of the explosive column is 10mm, the height of the explosive column is 150mm, and the filling density is 1.5-2.0 g/cm3. And sticking a layer of tin foil paper on the bottom of the pressed main charge column of the combustion agent, sealing and carrying out damp-proof treatment, and then filling the main charge column into a main charge cylinder.
Further, a medicine barrel shell 1-5 is sleeved outside the main medicine charging column 1-2 and is divided into an inner layer and an outer layer, the outer layer shell is No. 45 steel, the inner layer shell (lining) is made of high-temperature-resistant ceramic materials, the medicine barrel shell can keep solid state in a short time at a higher temperature (above 2000 ℃), melting does not occur, and the restraint effect on internal medicine charging can be well kept.
The working principle of the invention is as follows: the main charging column is ignited by utilizing an electric ignition mode, high-temperature flame and scorching hot melt generated by combustion are sprayed out from the energy-gathering nozzle, a metal shell or a metal component of the ammunition with a certain thickness is melted through within a short time, so that the explosive filled in the main charging column is ignited to burn out, the generated gas is discharged from the melting through hole, explosion cannot occur in the process, and the aim of safe combustion and destruction of the ammunition is finally achieved.
The invention is different from the prior high-energy combustion destructor in that the invention is a split firework cutting device, the high-energy combustion destructor is composed of a cutting moment main body and a fixing device, and the cutting moment can be adjusted in the fixing device by moving up and down to meet the requirement of destroying ammunitions with different caliber sizes; the fixing device can meet the requirement of ammunition with a wider ammunition diameter size range through the design of the triangular base and the clamping plate.
Has the advantages that: (1) the invention is suitable for destroyed ammunitions with different ammunition diameters, and has simple structure, low cost and good effect; (2) the invention can carry out quick combustion drilling on the small ammunition shell, and can adopt a plurality of destroying devices to be combined for medium and large ammunition, thereby realizing simultaneous batch combustion drilling, effectively improving the destroying efficiency and improving the safety of destroying the ammunition by a high-energy combustion method.
Drawings
Fig. 1 is a schematic view of the structure of a cutting torch body according to the present invention.
Fig. 2 is a schematic structural view of the main cartridge in an operating state according to the present invention.
Fig. 3 is a schematic view of the main cartridge of the present invention in a stored and transported state.
Fig. 4 is a schematic diagram of the configuration of a shaped orifice of the present invention.
Fig. 5 is a schematic structural view of the fixing device of the present invention.
Fig. 6 is a schematic structural view of a triangular support with a clamping plate according to the invention.
Fig. 7 is a schematic structural view of the composite connecting member of the present invention.
Fig. 8 is an overall assembly schematic of the present invention.
Detailed Description
The present invention will be further described with reference to the accompanying drawings.
Example 1
The invention provides a split type high-energy combustion destroying device suitable for different bullet diameters, which comprises a cutting torch main body, a fixing device and a combined connecting piece, wherein the cutting torch main body comprises a cylindrical main cartridge case 1, the top and the bottom of the main cartridge case 1 are respectively provided with an ignition device 1-3 and a funnel-shaped energy-gathering nozzle 2, the ignition device is an electric igniter consisting of an electric ignition head and an ignition powder, and the electric igniter is arranged at the upper part of the main cartridge case and is assembled with the ignition powder column 1-1 at the top end during operation. The main explosive loading cylinder 1 is filled with main explosive loading columns 1-2; the fixing device comprises a square fixing support piece 3, bolt holes 3-2 are formed in corresponding first support frame pairs 3-1 on the fixing support piece 3, first connecting heads 3-4 and first connecting clamping grooves 3-5 are formed in corresponding second support frame pairs 3-3 on the fixing support piece 3 respectively, and a triangular support 4 is arranged at the bottom of the fixing device. The fixed support 3 enables a reliable fixation and stable support of the single destroyer in use. When the ammunition destruction support is used, the fixed support is placed above the ammunition to be destroyed, and the triangular support at the bottom of the fixed support can play a role in stably supporting the ammunition with different calibers.
The energy-gathering nozzle is funnel-shaped, the material is stainless steel, and the inner wall of the funnel is coated with a graphite coating 7 with excellent high-temperature resistance. The energy-gathering nozzle is arranged at the bottom of the main charging barrel, threads are arranged in the nozzle, and the nozzle can be screwed and fixed on the main charging barrel shell. The function of the energy-gathering nozzle is to gather the glowing metal molten flow generated by combustion, which is beneficial to heat concentration, can greatly reduce the dispersion loss of the molten flow on the convex ammunition shell, effectively improve the hot melt-through function capability, and ensure the melt-through reliability of the cutting moment to the ammunition shell. The high-temperature resistant graphite coating on the inner wall of the funnel can ensure that high-temperature molten flow generated by combustion of the high-energy combustion agent is not infiltrated into the inner wall of the funnel, and the high-temperature molten flow is easier to flow out.
The triangular support 4 is provided with a first support leg 4-1 and a second support leg 4-2, and a certain included angle is formed between the first support leg 4-1 and the second support leg 4-2 and ranges from 45 degrees to 80 degrees. At least one clamping plate 5 is respectively arranged on two sides of the triangular support 4, and the clamping plate 5 is connected with the triangular support 4 through an elastic fixing device. The side of the clamping plate 5 facing the destroyed ammunition is provided with a clamping arc 5-1 which is matched with the radian of the destroyed ammunition, and the clamping teeth 5-2 which can increase the clamping friction force are arranged inside the clamping arc 5-1. The combined connecting piece 6 comprises a second connecting clamping groove 6-1 corresponding to the first connecting head 3-4 and a second connecting head 6-2 corresponding to the first connecting clamping groove 3-5, and the second connecting headThe connecting clamping groove 6-1 is connected with the second connector 6-2 through a connecting beam 6-3, and the length of the connecting beam 6-3 is adjustable. The top of the main cartridge 1 is provided with a cartridge top cover 1-4 with a pressure relief air hole, the ignition device 1-3 extends out of the cartridge top cover 1-4, and the bottom of the main cartridge 1 is provided with a cartridge bottom cover 1-6. The top cover of the medicine cylinder is a threaded stainless steel cover with a pressure relief air hole, is arranged at the top of the main medicine cylinder and can be screwed and fixed on the medicine cylinder shell 1-5 through threads. The main charge column 1-2 is a charge column pressed by a high-energy combustion agent, and the formula comprises 65-78% of Fe by mass2O320 to 28 percent of Al and 2 to 5 percent of epoxy resin. Pressing the combustion agent into a cylindrical explosive column with a hollow interior by adopting a manual press, wherein the outer diameter of the explosive column is 40mm, the inner diameter of the explosive column is 10mm, the height of the explosive column is 150mm, and the filling density is 1.5-2.0 g/cm3. And sticking a layer of tin foil paper on the bottom of the pressed main charge column of the combustion agent, sealing and carrying out damp-proof treatment, and then filling the main charge column into a main charge cylinder. The outside of the main explosive charging column 1-2 is sleeved with an explosive cartridge shell 1-5, the explosive cartridge shell is divided into an inner layer and an outer layer, the outer layer shell is No. 45 steel, the inner layer shell (lining) is made of high-temperature-resistant ceramic materials, the solid state can be kept in a short time at a higher temperature (above 2000 ℃), the melting is avoided, and the restraint effect on the internal explosive charging can be well kept.
Fig. 2 is a schematic view showing the main cartridge in the present invention in an operating state, and fig. 1 to 4 are cartridge assembly caps threadedly coupled to cartridges 1 to 5. 1-4, a round hole is reserved in the middle for arranging an ignition device 1-3. The cartridge case assembly top cap compares with cartridge case seal top cap, can leave bigger space inside the cartridge case, can balance cartridge case internal pressure in the moment of lighting a fire, effectively prevents the detonation, and 1-6 are cartridge case seal bottom caps, should unscrew during the use in the picture.
Fig. 3 is a schematic structural view of the main cartridge in storage and transportation states, in which 1-1 is ignition powder, a cylindrical round hole-shaped groove is reserved in the middle of the powder column and is used for arranging an ignition tool, 1-7 is a cartridge sealing top cover which is combined with a cartridge wall 1-4 through threads, 1-6 is unscrewed when in use, the ignition tool is assembled in the groove of 1-1, then the cartridge assembling top cover 1-4 in fig. 2 is screwed on the cartridge wall 1-4, 1-6 is a cartridge sealing bottom cover which is combined with the cartridge 1-4 through threads and is unscrewed 1-6 when in use, and then the energy-gathering nozzle shown in fig. 4 is screwed on the cartridge wall 1-4.
The using method of the embodiment comprises the following steps:
step 1: assembling a cutting torch body
The cartridge seal cap of the main cartridge is unscrewed, the ignition device is assembled with the main cartridge, and the cartridge is screwed to assemble the cap. And unscrewing a cartridge sealing bottom cover of the main cartridge container, and screwing the energy-gathering nozzle at the bottom of the main cartridge container to finish the assembly of the cutting torch main body of the destroying device.
Step 2: set up the destroyer
When the destroying device is arranged, firstly, the single fixing support piece is stably arranged above the ammunition shell according to a specific destroying device arrangement scheme; next, the main charge cartridge, with the ignition device and the energy-gathering nozzle assembled, is loaded into a fixed support, in a manner that the energy-gathering nozzle is inserted downward until the bottom of the energy-gathering nozzle is in close contact with the cartridge case; and finally, screwing the fixing bolts at the two sides of the fixing support piece to firmly and vertically fix the main explosive cartridge above the ammunition shell. The overall effect of the destroyer assembly setup is shown in fig. 8.
And step 3: destroy the ware and ignite
The high energy combustion destroyers of the present invention are typically fired using an electric detonator. After the integral assembly of the destroyer is finished, the electric ignition device at the top end is connected with a main line, and after personnel evacuate to a safe area, remote ignition is implemented through the electric initiator, so that high-energy combustion destruction of ammunition is realized.
Example 2
This embodiment is different from embodiment 1 in that the present invention can be used in combination by combining the connectors when used.
When large and medium ammunition with longer ammunition body is destroyed, in order to improve the destruction efficiency and the destruction safety, a mode of combining a plurality of high-energy combustion destroying devices can be adopted, and a plurality of positions on the ammunition body are simultaneously combusted and drilled.
The fixed supporting pieces can be connected in series in a mode of directly and tightly splicing and inserting the clamping grooves, and can also be spliced and inserted in series at different intervals through the combined connecting piece. The combined connecting piece can realize the in-line serial connection use of a plurality of high-energy combustion destroying devices and can realize the in-line serial connection use of different intervals of the plurality of high-energy combustion destroying devices. The combined connecting piece is made of a square steel pipe as a main body, and structurally comprises an I-shaped connecting rod with connecting heads and connecting clamping grooves at two ends, wherein the connecting heads and the connecting clamping grooves are formed by pressing and welding A3 steel plates with the thickness of 2 mm. The structure of the composite connecting member is shown in fig. 6.
The connectors and the connecting clamping grooves between the adjacent combined connecting pieces can be simply spliced and connected in series. Meanwhile, the combined connecting piece and the connecting head and the connecting clamping groove on the fixed supporting piece can be mutually compatible, and the combined distance between the destroying devices can be adjusted through the spliced combined connecting piece. Therefore, the device can realize the flexible serial use of the destroying device on the bullets with different structures.
The using method of the embodiment comprises the following steps:
step 1: assembling a cutting torch body
And unscrewing the top cover of the main cartridge case, assembling the ignition device and the main cartridge case, unscrewing the bottom cover of the main cartridge case, and screwing the energy-gathering nozzle at the bottom of the main cartridge case to complete the assembly of the cutting torch main body of the destroying device.
Step 2: set up the destroyer
When the destroying device is set, firstly, a plurality of fixed supporting pieces are stably arranged above the ammunition shell according to a specific destroying device setting scheme, and the fixed supporting pieces are directly spliced, inserted and connected in series or combined connecting pieces are spliced, inserted and connected in series according to the destroying scheme;
then, a plurality of main charging barrels which are assembled with the ignition device and the energy-gathering nozzles are sequentially arranged in respective fixed supporting pieces, and the specific mode is that the energy-gathering nozzles are downwards inserted until the bottoms of the energy-gathering nozzles are tightly contacted with the ammunition shell; finally, the fixing bolts at both sides of each fixing support piece are screwed to firmly and vertically fix the main explosive cartridge above the ammunition shell.
The schematic diagram of the arrangement scheme of the destroying device for destroying typical ammunitions such as grenades, rocket mine sweeping warheads and anti-tank mines by adopting the high-energy combustion destroying devices related by the invention which are combined and connected in series is shown in figure 8.
And step 3: destroy the ware and ignite
The high energy combustion destroyers of the present invention are typically fired using an electric detonator. After the integral assembly of the destroyer is finished, the electric ignition devices at the top ends of a plurality of destroyers are connected in series by foot lines and are connected with a main line to form an electric ignition loop. After people leave to a safe area, the electric detonator is used for remote ignition, so that the high-energy combustion destruction of ammunition is realized.
The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.
Claims (4)
1. The split type high-energy combustion destroying device suitable for different bullet diameters is characterized by comprising a cutting torch main body, a fixing device and a combined connecting piece (6), wherein the cutting torch main body comprises a cylindrical main cartridge (1), the top and the bottom of the main cartridge (1) are respectively provided with an ignition device (1-3) and a funnel-shaped energy-gathering nozzle (2), and the main cartridge (1-2) is filled in the main cartridge (1); the fixing device comprises a square fixing support piece (3), bolt holes (3-2) are formed in corresponding first support frame pairs (3-1) on the fixing support piece (3), first connecting heads (3-4) and first connecting clamping grooves (3-5) are respectively formed in corresponding second support frame pairs (3-3) on the fixing support piece (3), and a triangular support seat (4) is arranged at the bottom of the fixing device; the triangular support (4) is provided with a first supporting leg (4-1) and a second supporting leg (4-2), and a certain included angle is formed between the first supporting leg (4-1) and the second supporting leg (4-2) and ranges from 45 degrees to 80 degrees; at least one clamping plate (5) is arranged on each of two sides of the triangular support (4), and the clamping plates (5) are connected with the triangular support (4) through elastic fixing devices; one side of the clamping plate (5) facing to the destroyed ammunition is provided with a clamping arc (5-1) which is matched with the radian of the destroyed ammunition, and clamping teeth (5-2) for increasing the clamping friction force are arranged inside the clamping arc (5-1); the combined connecting piece (6) comprises a second connecting clamping groove (6-1) corresponding to the first connecting head (3-4) and a second connecting head (6-2) corresponding to the first connecting clamping groove (3-5), the second connecting clamping groove (6-1) is connected with the second connecting head (6-2) through a connecting beam (6-3), and the length of the connecting beam (6-3) is adjustable; the energy-gathering nozzle is funnel-shaped, the material is stainless steel, and the inner wall of the funnel is coated with a graphite coating.
2. The split type high-energy combustion destructor suitable for different projectile diameters of claim 1, wherein: the top of main dress cartridge case (1) is installed and is had cartridge case top cap (1-4) of pressure release gas pocket, ignition (1-3) stretches out cartridge case top cap (1-4), cartridge case bottom (1-6) are installed to the bottom of main dress cartridge case (1).
3. The split type high-energy combustion destructor suitable for different projectile diameters of claim 1, wherein: the main explosive charging column (1-2) is a column pressed by a high-energy combustion agent.
4. The split type high-energy combustion destructor suitable for different projectile diameters of claim 1, wherein: the outer part of the main explosive loading column (1-2) is sleeved with an explosive barrel shell (1-5).
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| CN103423751A (en) * | 2013-07-31 | 2013-12-04 | 中国人民解放军理工大学 | High-energy combustion destroying device and method realized by melting through metal shells |
| CN206709711U (en) * | 2017-03-21 | 2017-12-05 | 中国人民解放军理工大学 | A kind of unexploded ordnance based on slag type thermite destroys device |
| CN207850205U (en) * | 2018-01-16 | 2018-09-11 | 西安物华巨能爆破器材有限责任公司 | A kind of non-contact cumulative destroys the fixing device of bullet |
| CN208042900U (en) * | 2018-03-23 | 2018-11-02 | 中国人民解放军陆军工程大学 | Linear splicing type high-energy combustion cutting destroying device |
| CN208238655U (en) * | 2018-04-02 | 2018-12-14 | 中国人民解放军陆军工程大学 | Modularized hollow shaft symmetrical slag-melting type high-heat agent destroyer for destroying unexploded ammunition |
| CN108548465A (en) * | 2018-06-16 | 2018-09-18 | 福建兵工装备有限公司 | A kind of destruction device of explosive wastewater product |
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