CN202903032U - Positioning orientation pushing special device in tunnel orientation fracture explosion energy-gathered explosive package hole - Google Patents
Positioning orientation pushing special device in tunnel orientation fracture explosion energy-gathered explosive package hole Download PDFInfo
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- CN202903032U CN202903032U CN 201220570913 CN201220570913U CN202903032U CN 202903032 U CN202903032 U CN 202903032U CN 201220570913 CN201220570913 CN 201220570913 CN 201220570913 U CN201220570913 U CN 201220570913U CN 202903032 U CN202903032 U CN 202903032U
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Abstract
The utility model discloses a positioning orientation pushing special device in a tunnel orientation fracture explosion energy-gathered explosive package hole. The device is formed by assembly of a hollow gun pole with positioning scales and a sliding positioning ring, a positioning sleeve with an orientation sliding groove and a clamping port and an orientation push rod, wherein two ends of the orientation push rod are respectively connected with an orientation handle and a circular cartridge baffling piece. According to the device, precise positioning for an energy-gathered tube kurf in a shot hole is carried out outside the hole by means of adjustment for the handle direction, angle deflection is controlled within 5-10 degrees, accordingly a good explosion fracture face is obtained, the whole device is simple in structure, convenient to operate, free of special requirements for a traditional drilling process, and beneficial for promoting application of an orientation energy-gathered explosive technique.
Description
Technical field
The utility model relates to a kind of pusher, is specifically related to positioning and directing propelling movement isolated plant in the directional fracture blasting cumulative cartridge bag hole, a kind of tunnel.
Background technology
From later stage the 1950's, smooth Surface Blasting Technology is risen in Sweden, subsequently in the countries in the world wide popularization and application.At present, generally adopt the quick-fried technology of light in the constructing tunnel both at home and abroad, the tunnel Forming Quality has larger change, but because quick-fried living crack is very easily along the rock mass initial fissure, the joint development, the expansion in quick-fried living crack has very large randomness and uncertainty, rift direction is difficult to control, the country rock damage is serious, and the profile irregularity degree is large, and the periphery hole half hole mark rate is low, especially problem is more outstanding in the weak broken rock mass, out break is serious, and Forming Quality is poor, and construction efficiency is low, increase support work amount and material consumption, and greatly reduced integrality and the stability of underground rock cavern.
In order to overcome the deficiency of above-mentioned traditional smooth Surface Blasting Technology, the scientific worker has proposed the directional cumulation blasting technique both at home and abroad, and has carried out a large amount of theories and investigative test research, and various cumulative controlled blasting technology are arisen at the historic moment thus.From domestic development and the CUMULATIVE BLASTING technology on probation of beginning of the eighties in last century, but since the restriction of technology and technological level can't normal use in construction, a very long time CUMULATIVE BLASTING experimental study and engineering are used and are stayed cool.After entering 21st century, because the needs of engineering construction, the CUMULATIVE BLASTING technology is subject to scientific worker's attention again, and designed multiple pattern, the cumulative cartridge bag of various material or joint-cutting cartridge bag, successively announced the multinomial directional cumulation demolition set relevant with joint-cutting cartridge bag or cumulative cartridge bag such as Chinese patent, such as a kind of bidirectional energy gathering tension shaping blasting cartridge (application number: 200610113007.X), a kind of compound energy-concentrating explosion cartridge bag and production method (application number: 200910232537.6) thereof, a kind of rock oriented break blasting device (application number: 200620074520.8), a kind of (application number: 200920099039.8) of binding energy tube with joint-cutting, directional rock blasting crack propagation method and device (application number: 201010576482.7), double focusing energy presplitting and photoface exploision isolated plant (application number: 200720062631.1), double focusing energy presplitting and smooth blasting method and isolated plant (application number: 200710034494.5) thereof, can make the rock blasting splitter (application number: 201020215783.2) etc. of lengthening distance between adjacent two blast holes, satisfy the technical need of different Engineering Control explosions, directly promoted the development of directional cumulation blasting technique and apply.
According to the acquisition pattern in blast initial orientation crack, above-mentioned cumulative controlled blasting method can be divided three classes:
1, big gun hole grooving directional fracture blasting
Big gun hole grooving blasting procedure does not change the powder stick structure, need to adopt special-purpose slotting drill, cuts out the groove of a certain depth in rock mass cracking direction, forms the grooving borehole.This technology rock drilling activity time is long, and task difficulty is large, and drilling efficiency is low, and cost is high.
2, cumulative cartridge bag directional fracture blasting
Cumulative cartridge bag blasting procedure need to be processed special-purpose heterotype tubing, forms sockets for collecting energy by the section configuration of change tubing or in methods such as round tube inner wall processing V-arrangement projections, then carries out the manual charging.Cumulative cartridge bag manufacture craft trouble, cost is high, although obtained good technique effect in engineering is used, lacks and uses generality, is unfavorable for applying.
3, joint-cutting cartridge bag directional fracture blasting
Comparatively speaking, the Cutting Seam Cartridge Blasting technology have cartridge bag make simple, draw materials conveniently, cost is low, quick-fried operation is disturbed less to boring, strong adaptability, the advantage that is easy to promote, has all obtained preferably effect in soft rock, medium hardness or solid rock controlled blasting.The joint-cutting cartridge bag is the circular engineering plastics tubing that adopts certain diameter and length, at the vertical symmetrical processing of its sidewall two V-arrangement groovings, joint-cutting or circular rounds, forming symmetrical troughs for collecting energy, after the powder stick of diameter 25mm or 32mm is filled in binding energy tube, namely made the joint-cutting cartridge bag.In the blasting process, the cumulative joint-cutting powder stick that only needs to pack into pre-processed in the big gun hole gets final product.
Existing problems:
(1) although domestic and international scientific worker has proposed cumulative cartridge bag or the joint-cutting cartridge bag of multiple pattern, various material, about CUMULATIVE BLASTING technology laboratory test and theoretical research have obtained a large amount of achievements in research, in the deep hole blastings such as small section tunnel, Hydraulic and Hydro-Power Engineering side slope perron, obtain certain applying, but because cumulative charge structure complexity or site construction technology are immature, rock mass engineering project explosion the field is blank at fast-developing at present highway and the application in the Railway Tunnel engineering construction of explosion particularly basically still seldom.
(2) on-the-spot CUMULATIVE BLASTING construction technology aspect, key are not to be suitable for vertically not being coupled the positioning and directing professional device of cumulative cartridge bag of spaced loading structural shape, and cohesive energy cave, big gun hole is directed difficult.When adopting traditional wooden or plastics big gun bar that binding energy tube is pushed horizontal hole, because the friction of borehole wall or stopping of residual borings and so that cartridge bag rotates, can not guarantee that energy-gathering jetting expands along the design profile line.The joint-cutting cartridge bag can't be directed or directed inaccurate in the hole, can cause than the worse demolition effect of traditional photoface exploision.
(3) the special-purpose directed adjusting lever (" but accurate pointing breaking blasting binding energy tube and directed adjusting lever thereof " (application number: 98221962.8)) of binding energy tube that is formed by big gun bar and the finder that is fixed in big gun rod end head, solve to a certain extent the control problem of joint-cutting direction in the powder charge process, but this device utilization is adjusted locating notch or the groove of dop embedding binding energy tube end and is carried out the joint-cutting orientation, on the one hand need to be at binding energy tube end additional processing groove, on the other hand binding energy tube is pushed easily slippage in the process of big gun hole, centering is extremely difficult again, on-the-spot poor operability, work efficiency is low.
(4) (double focusing can presplitting and photoface exploision isolated plant (application number: 200720062631.1)), in the application of succeeding of the long-hole blasting project such as Hydraulic and Hydro-Power Engineering side slope perron to adopt the binding energy tube slightly longer than blast hole depth to carry out the CUMULATIVE BLASTING technology of continuous charging.This device carries out adjustment or the centering of sockets for collecting energy jet direction by aperture centering ring, but is not suitable for the horizontal blasting construction of length or the super long tunnel engineering of large section (80-130 square meter).The be not coupled the field of spaced loading CUMULATIVE BLASTING technology of relevant large section level is not seen the report of large scale application.
(5) owing to the special-purpose positioning and orienting device that lacks the cumulative cartridge bag, thereby bring trouble for on-the-spot powder charge and construction, limited CUMULATIVE BLASTING technology wide popularization and application in engineering.
If design a kind of installation method and isolated plant thereof of cumulative joint-cutting cartridge bag; strict control binding energy tube direction when powder charge; and can avoid binding energy tube to break away from and regulate dop; to significantly improve bursting quality; further accelerate applying of cumulative controlled blasting technology, the purpose of country rock self-bearing capacity is gone along with sb. to guard him and is given full play in the protection that the realization New Austrian Tunneling Method is advocated.
The utility model content
Technical problem to be solved in the utility model provides a kind of large cross-section tunnel horizontal perimeter eye that is applicable to and adopts the location of binding energy tube when not being coupled the spaced loading structure and the orientation of binding energy tube joint-cutting, can realize positioning and directing propelling movement isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel of the location of tunnel horizontal perimeter intraocular joint-cutting cartridge bag and the directed dual-use function of joint-cutting.
In order to solve the problems of the technologies described above, positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel that the utility model adopts, the front end of blown-out shot bar is connected with the rear end of directed sleeve in the location, the rear end of blown-out shot bar is provided with bottom in the described location, directional push-rod is sleeved in the described location in the blown-out shot bar and described rubber bottom and rearward end is provided with directed handle, the front end of described directed sleeve is opening, at least one side shaft of described directed sleeve is to being provided with oriented chute, described oriented chute closes on that an end of blown-out shot bar is provided with bayonet socket in the described location, be provided with the powder stick catch that can be free to slide in the described directed sleeve, on the edge of described powder stick catch with a screens salient point, described screens salient point is in the described oriented chute, described powder stick catch is connected with the front end of described directional push-rod, the outer surface of blown-out shot bar is provided with the rule that characterizes shot depth in the described location, is set with a slip locating ring in the described location on the outer surface of blown-out shot bar.
Described screens salient point and described directed handle are in same plane.
The blown-out shot bar is the antistatic steel-plastics composite pipe of long 1.5m~3m in the described location.
Described directed sleeve is that an antistatic high-strength PVC pipe or steel are moulded the composite hollow light-wall pipe.
The width of described oriented chute is identical with the width of described screens salient point, is all 3mm~5mm, and described bayonet socket size is than the wide 2mm of described screens salient point.
Described directional push-rod is the solid body of rod of engineering duroplasts of diameter 18mm.
Described powder stick catch is the thick electrostatic prevention plastic steel disc of 2mm, and diameter agrees with mutually with the internal diameter of described directed sleeve.
Described directed handle and described screens salient point, oriented chute are in same plane, and described directed handle is the antistatic steel-plastics composite pipe of long 150mm, specification DN15.
Be provided with the screens spring between the rear end of described powder stick catch and described directed sleeve.
Positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel of employing technique scheme, the operation principle of blown-out shot bar in the location: when pushing binding energy tube in the big gun hole, the design and installation degree of depth according to binding energy tube, first the locating ring on the middle blown-out shot bar is slided in advance scale position predetermined on the big gun bar, again drug delivery in the hole, when slide block arrives the borehole aperture, stop to push, rear driving handle is released sleeve to the precalculated position with binding energy tube.The operation principle of directional push-rod and directed sleeve: the directed handle at directional push-rod two ends and the screens salient point on the powder stick catch are stuck in the same plane, and the positioning runner width on screens salient point and the directed sleeve agrees with, and the powder stick catch can be free to slide in oriented chute.During powder charge, directional push-rod pulled back reverse, borrow the thrust of screens spring that the screens salient point is stuck in the bayonet socket, the binding energy tube directed sleeve of packing into, and guarantee that the binding energy tube joint-cutting overlaps with oriented chute, after send into borehole, arrive the predetermined design position after, pull back and reverse directed handle the screens salient point is returned in the oriented chute, it is parallel consistent with the explosion outline line that the rotational orientation handle makes it.Because of directed handle and oriented chute in same plane, this moment, the binding energy tube joint-cutting was also parallel with outline line, so just can carry out the accurate pointing adjustment by the direction of regulating directed handle to borehole cohesive energy cartridge bag outside the hole.
Field application test shows that this device has significant techno-economic effect, and the level that is specially adapted to is to the locating and orienting of CUMULATIVE BLASTING cartridge bag.Concrete manifestation is as follows:
(1) novelty simple in structure is easy to make, and is simple to operate, with low cost, Applied economy, to traditional rock drilling technique without specific (special) requirements, do not affect common rock drilling and blasting procedure, remedied the deficiencies such as the directed difficulty of on-the-spot CUMULATIVE BLASTING construction technology powder charge, activity duration length, be suitable for the field.
(2) (" but accurate pointing breaking blasting binding energy tube and directed adjusting lever thereof " (application number: 98221962.8)) compared with existing directed adjusting lever technology, need not cumulative joint-cutting tube end is carried out extra centering grooving processing, work efficiency is provided, and has avoided the slippage centering problem of binding energy tube.
(3) with existing hole in total length binding energy tube mounting technique (double focusing can presplitting be compared with photoface exploision isolated plant (application number: 200720062631.1)), can realize carrying out the CUMULATIVE BLASTING design by the common spaced loading structure that is not coupled, do not change existing blasting construction process, and saved a large amount of cumulative tubing; With traditional big gun bar the powder stick cargo handling operation is installed and is compared, only increased the operation that the spin orientation handle is adjusted binding energy tube joint-cutting direction.
(4) this device can be sent the joint-cutting cartridge bag into the big gun hole quickly and easily, under the protection of directed sleeve, has avoided when the joint-cutting cartridge bag is installed stopping that because of borehole wall friction or residual chip the body that causes rotates.
(5) this device can be realized horizontal hole the be not coupled location of spaced loading powder stick and the dual-use function of joint-cutting cartridge bag orientation simultaneously, can realize that by regulating directed handle joint-cutting and outline line direction are consistent, effectively controlled Fracture orientation generation, expansion and crack arrest, solved the CUMULATIVE BLASTING forming quality and compared the worse contradiction of traditional smooth demolition effect.
(6) this device solves the directed difficult problem of installing of joint-cutting cartridge bag in the prior art big gun hole, can effectively promote effect and cavern's forming quality of directional cumulation explosion, drilling hole amount and explosive consumption have been reduced, effective, improve work efficiency, reduce cost, be suitable in tunnel and the construction of underground engineering CUMULATIVE BLASTING, applying.
In sum, the utility model is that a kind of large cross-section tunnel horizontal perimeter eye that is applicable to adopts the location of binding energy tube when not being coupled the spaced loading structure and the orientation of binding energy tube joint-cutting, can realize positioning and directing propelling movement isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel of the location of tunnel horizontal perimeter intraocular joint-cutting cartridge bag and the directed dual-use function of joint-cutting.
Description of drawings
Fig. 1 is two kinds of special-shaped binding energy tube charge constitutions and sockets for collecting energy diagram.
Fig. 2 is structure and the sockets for collecting energy diagram of wire joint-cutting CUMULATIVE BLASTING device.
Fig. 3 is some structure of strip CUMULATIVE BLASTING device and a sockets for collecting energy diagram.
Fig. 4 is that tunnel and Double is to CUMULATIVE BLASTING periphery hole section distribution diagram.
Fig. 5 is tunnel tradition photoface exploision periphery hole charge constitution diagram.
Fig. 6 is that tunnel and Double is to CUMULATIVE BLASTING periphery hole charge constitution diagram.
Fig. 7 is periphery hole binding energy tube joint-cutting cumulative action diagram when consistent with the outline line direction.
Fig. 8 is periphery hole binding energy tube joint-cutting and outline line cumulative action inefficacy diagram when having deviation;
Fig. 9 is that novel energy-focusing cartridge bag positioning and directing pushes the isolated plant configuration diagram.
Figure 10 is novel energy-focusing cartridge bag positioning and directing pusher structure longitudinal profile diagram.
Figure 11 is novel directed sleeve partial structurtes diagram.
Figure 12 is novel directed sleeve partial structurtes section diagram.
Figure 13 is front and the side diagram of circular powder stick catch.
Figure 14 is that this device positions directed powder charge laboratory test diagram.
Figure 15 is indoor powder charge operating condition of test figure.
Figure 16 is indoor powder charge test sectional drawing.
The specific embodiment
The utility model is described in further detail below in conjunction with the drawings and specific embodiments.
Fig. 1~Fig. 3 is several representative binding energy tube demolition set of domestic and international scientific worker's design.Fig. 1 is cumulative cartridge bag charging constitution of directional splitting blasting, all adopts the binding energy tube body 1 of abnormity, vertically is provided with the V-type sockets for collecting energy 2 of two symmetries on the tube wall of cumulative cartridge bag body 1; Fig. 2 and Fig. 3 are respectively wire, point-like joint-cutting binding energy tube demolition set, and cumulative cartridge bag body 1 adopts circular body, vertically are provided with respectively the cumulative hole 4 of two linear joint-cuttings 3, round point-like on the tube wall.
Fig. 4~Fig. 6 has provided cloth hole and the charge constitution pattern of implementing CUMULATIVE BLASTING by double track tunnel.Fig. 4 is double track tunnel III level country rock full-face blast periphery hole layout drawing, by traditional design of smooth blasting, and big gun hole 5 diameter 42mm, the quick-fried perimeter shothole spacing 600mm of traditional light, totally 41 boreholes.Detonation mode is millisecond detonating in the hole, among Fig. 4 the numeral 13 ', 15 ' expression hole in the millisecond detonator section other.Fig. 5 is traditional photoface exploision periphery hole interval forward charge constitution that is not coupled, and selects the small medicine coil of the long 200mm of diameter 25mm in the present embodiment, and each big gun hole 5 is carried out networking in parallel by detonator 9, on-electric detonator 10, primacord 8 and ignited.Fig. 6 is CUMULATIVE BLASTING periphery hole charge constitution, compares with Fig. 5, has only changed the charge structure form, common small medicine coil is changed into the binding energy tube body 1 of binding energy tube powder stick.Fig. 7 is the cumulative action diagram of tunnel perimeter eye binding energy tube joint-cutting when consistent with the outline line direction, in using, actual rock blasting engineering finds, as with common big gun bar binding energy tube directly being pushed borehole, because of the rational centering method of nothing and utility unit, the joint-cutting direction is difficult to the centering outline line, is difficult to reach the desirable demolition effect shown in the figure.
In order to further specify the important function of present embodiment in level is used to the CUMULATIVE BLASTING Technique Popularizing, cumulative action diagram when Fig. 8 has provided tunnel perimeter eye binding energy tube joint-cutting and outline line and has certain deviation, the cumulative perimeter shothole spacing is 650mm in the present embodiment, the first periphery hole 51 and the second periphery hole 52 hole cohesive energy pipe joint-cuttings depart from 15 ° of outline lines in the same way, and the 3rd periphery hole 53 and 4th week limit eye 54 hole cohesive energy pipe joint-cuttings oppositely depart from respectively 30 ° of outline lines.Cause the principle of Fracture orientation generation, expansion and crack arrest according to energy-gathering jetting, can draw out the out break curve that causes because of the joint-cutting deviation (among the figure shown in the dotted line), the sockets for collecting energy direction depart from the theoretical maximum out break amount that causes be respectively 290mm, 130mm and-180mm, and the average 150mm of the maximum amount of backbreaking of regulation and stipulation, maximum 250mm, and strictly control owes to dig, and forbids to owe to dig in arch springing, the above 1m scope of foundation.Above-mentioned analytic explanation if sockets for collecting energy departs from the outline line direction above behind the certain angle, can't be given full play to the effect of CUMULATIVE BLASTING technology, and it is poorer that the CUMULATIVE BLASTING Forming Quality is compared traditional smooth demolition effect sometimes.This is the major reason that restriction CUMULATIVE BLASTING new technology is applied in the rock blasting engineering.According to laboratory test and site test results, the angular deviation of cumulative joint-cutting direction and outline line direction should be controlled at below 5 °, the most very much not should be above 10 °.
Below in conjunction with Fig. 9~Figure 13 the specific embodiment of the present utility model is described.
Referring to Fig. 9 and Figure 10, the rear end welding of the front end of blown-out shot bar 14 and directed sleeve 17 in the location, the rear end of blown-out shot bar 14 is provided with rubber bottom 13 in the location, rubber bottom 13 middle with holes, be used for fixed orientation push rod 12, the outer surface of blown-out shot bar 14 is set with a slip locating ring 21 with the rule that characterizes shot depth in the location on the outer surface of blown-out shot bar 14 in the location, can realize the longitudinal register function of cumulative cartridge bag spaced loading.According to the drug delivery degree of depth, blown-out shot bar 14 adopts the antistatic steel-plastics composite pipe of long 1.5m~3m in the location, and internal diameter is greater than directional push-rod 12 body of rod external diameters, and blown-out shot bar 14 adopts the multiple tube of specification DN20, long 2.0m in locating in the present embodiment.
Directed sleeve 17 shown in Figure 11 is a hollow thin-wall pipe, adopts antistatic high-strength PVC pipe or steel-plastics composite pipe, and the specification of directed sleeve 17 can be selected customization according to powder stick external diameter size.Press the common small medicine coil of diameter 25mm, long 200mm in the present embodiment and consider that directed sleeve 17 Design of length are that 220mm, internal diameter are that 27mm, external diameter are 29mm.Directed the front of sleeve 17 is opening, the rear end is semiclosed, the center stay establish one with the location in blown-out shot bar 14 with blown-out shot bar 14 weldings in the circular hole of internal diameter and the location, and directed sleeve 17 1 side shafts are to the oriented chute 16 that offers width 3mm~5mm, and oriented chute 16 closes on that an end of blown-out shot bar 14 is provided with bayonet socket 15 in the location.
Directional push-rod 12 is a solid body of rod, the rear end is provided with directed handle 11, and front end is connected with powder stick catch 18, and powder stick catch 18 is circular, with a screens salient point 20, directed handle 11 and screens salient point 20, oriented chute 16 are in same plane on the edge of powder stick catch 18.The diameter of powder stick catch 18 agrees with mutually with directed sleeve 17 internal diameters, and the width of screens salient point 20 is identical with the width of oriented chute 16, is all 3mm~5mm, and bayonet socket 15 sizes are than screens salient point 20 wide 2mm.Be provided with a screens spring 19 that is sleeved on the directional push-rod 12 between the rear end of powder stick catch 18 and directed sleeve 17.The body of rod of directional push-rod 12 adopts the solid engineering hard plastic charge bar of diameter 18mm, and directed handle 11 adopts the antistatic steel-plastics composite pipe of long 150mm specification DN15.Powder stick catch 18 adopts the thick electrostatic prevention plastic steel disc of 2mm.
The concrete operations technique of this device is as follows:
(1) finish boring after, before the powder charge, pull back and reverse directional push-rod 12 in the big gun hole, borrow the counter-force of screens spring 19 that screens salient point 20 is stuck in the bayonet socket 15 of directed sleeve 17 bottoms.
The cumulative cartridge bag body 1 that (2) will in advance process is put into directed sleeve 17, and the cumulative hole 4 of V-type sockets for collecting energy 2, linear joint-cutting 3 or the round point-like of cumulative cartridge bag body 1 is overlapped with oriented chute 16.According to the cartridge bag mounting design degree of depth, the predetermined graduated position of the slip locating ring 21 in the location of sliding on the blown-out shot bar 14 to the body, drug delivery backward hole in when slip locating ring 21 arrives the place, aperture in big gun holes 5, stops propelling movement.
(3) after cumulative cartridge bag body 1 pushes to the projected depth position, directed handle 11 post-tensionings are reversed screens salient point 20 is revert in the oriented chute 16, directed handle 11 under this state, screens salient point 20, oriented chute 16 is in same plane, when reversing directed handle 11, directed sleeve 17 is thereupon rotation also, cumulative cartridge bag body 1 is thereupon rotation also, so regulating directed handle 11, rotation can make V-type sockets for collecting energy 2, the cumulative hole 4 of linear joint-cutting 3 or round point-like is consistent with design profile line direction, after adjusting the joint-cutting direction, hold blown-out shot bar 14 in the location, promote again directed handle 11 cumulative cartridge bag body 1 is released, finish powder charge.
(4) by above-mentioned technique, finish the charging work of each periphery hole cumulative cartridge bag, connect blasting network, implement to detonate, thereby obtain than the better demolition effect of conventional smooth Surface Blasting Technology.
In order to check the effect of this new device, corresponding laboratory test and work place study have been carried out.Figure 14 is that the utility model positions directed powder charge laboratory test diagram, select the engineering hard plastic transparent pipe 22 of internal diameter 42mm, thickness 2mm, long 2000mm as the big gun hole, with cumulative hole 4 directions of V-type sockets for collecting energy 2, linear joint-cutting 3 or the round point-like of convenient observation cumulative cartridge bag body 1 and the deviation of outline line.Before the test, press shown in Figure 15, carve at engineering hard plastic transparent pipe 22 outer surfaces respectively and paint 0 °, 15 °, 30 °, 45 °, 60 °, 75 °, the 90 ° symmetrical excavation contour lines of totally 7 kinds of different angles, carry out respectively the positioning and directing installation test of the different angles of 7 kinds of hole cohesive energy cartridge bags under the operating mode by aforementioned charging operation technique afterwards, Figure 16 figure has provided the section diagram that the cumulative cartridge bag is installed in 0 ° of direction.After each powder charge off-test, carefully measure the cumulative hole 4 of the round point-like of adding up cumulative cartridge bag body 1 and the misalignment angle between the engineering hard plastic transparent pipe 22 outer surface profile lines.Result of the test shows, adopts this new device can guarantee effectively that hole cohesive energy jet is along predetermined direction crack initiation and expansion.Adopt this new device can be with the Deviation Control between binding energy tube joint-cutting and the outline line in 5 °, and adopt traditional big gun bar to push binding energy tube, angular deviation is in 8 °~15 ° scopes, and as in the on-the-spot powder charge situation of actual blasting engineering, this deviation will be larger.
In order further to check the utility model to the control effect of binding energy tube joint-cutting direction, rely on certain Tunnel Engineering to carry out on-the-spot CUMULATIVE BLASTING test process, and compare with traditional Smooth Blasting Effects.In order to obtain more intuitive effect, except periphery hole cartridge bag pattern is different, other drilling hole amount, pitch-row, position, explosive payload and charge constitution are all identical.Carry out the full section periphery hole boring of III level country rock by Fig. 4, bore the small diameter blasthole of quick-fried employing 42mm, because the tunnel tunnel face country rock has a small amount of crevice water, select rock expanded ammonal and 2# rock emulsion explosive, adopt detonator 9 non-electric initiations of plastics, the millisecond elementary errors is detonated in order, and at periphery hole employing primacord 8 propagation of explosions, to strengthen the propagation of explosion ability, guarantee that the stable of periphery hole detonates, two kinds of charge constitutions of periphery hole are seen respectively Fig. 5 and shown in Figure 6.The dose distribution sees Table 1, and major economic indicators see Table 2.
Table 1 III level country rock full-face blast dose allocation table
Table 2 III level country rock full-face blast Main Economic technical indicator
| Sequence number | | Unit | Quantity | |
| 1 | Excavated section is long-pending | m2 | 82.4 | |
| 2 | Every cyclic advance | m | 3.5 | |
| 3 | Every circulation blasting rock move | m 3 | 288.4 | |
| 4 | The borehole sum | Individual | 126 | |
| 5 | The total rice of boring number | m | 506.8 | |
| 6 | The detonator consumption | Send out | 145 | |
| 7 | Explosive consumption | Kg | 194.03 | |
| 8 | Than jewel hole amount | m/m 3 | 1.76 | |
| 9 | Compare explosive payload | Kg/m 3 | 0.673 | |
| 10 | Unit volume rock mass consumption detonator number | Send out/m 3 | 0.5 | |
| 11 | Blast hole utilization factor | % | 95 |
By the site technique test, adopt conventional big gun bar to carry out the powder charge of traditional photoface exploision periphery hole, and CUMULATIVE BLASTING adopt this new device by aforementioned operation technique periphery hole 5 to be carried out directed powder charge, other construction technology is constant.For two kinds of blasting techniques, carried out continuously respectively five cycle operations of boring quick-fried drilling depth, finish altogether the test section of 35m.After each circulation finishes, adopt laser cross section instrument that the out break situation is carried out statistical analysis.
The site technique result of the test shows, adopting this new device to carry out periphery hole cumulative cartridge bag installs, comparing with traditional loading method only increased about half an hour, but effectively controlled the direction of binding energy tube joint-cutting 4, demolition effect obviously is largely increased, half relatively traditional photoface exploision of storage rate improved 5~10%, all reached more than 90%.Out break is controlled within the code requirement, and except being subjected to the impact in primary joint crack, part to can't see the residual trace of borehole, the maximum linear amount of backbreaking reaches outside 15~20cm, and the average linearity amount of backbreaking is less than 100mm, and the amount of backbreaking is controlled at below 8~10%.By adopting this new device to cooperate the CUMULATIVE BLASTING technology, effectively controlled out break, having reduced because backbreak in a large number caused muck removal amount and lining cutting backfill amount increase the construction cost that brings increases, reduced because of the excavation bad material that causes of control and temporal waste, average every circulation total operation time is no more than 10 hours, just a lining construction speed accelerates 25~35%, and the constructing tunnel integrated cost reduces greatly, and economic effect is obvious.Further reduced simultaneously the disturbance to country rock, brought into play more fully the self-supporting ability of country rock, provide better construction environment to construction of anchor shotcreting, construction safety provides better guarantee.
The laboratory test of this new device and field trial effect show, adopt this new device to carry out the locating and orienting of hole cohesive energy cartridge bag, particularly having solved binding energy tube joint-cutting and design excavation contour line direction can't the tangent technical problem of centering, angle between joint-cutting and the outline line can be controlled in the rational deviation range, effectively promote the demolition effect of directional cumulation crack initiation, reduce out break, improve cavern's molding effect, improve work efficiency, reduce cost.
Claims (9)
1. positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, a tunnel, it is characterized in that: the front end of blown-out shot bar (14) is connected with the rear end of directed sleeve (17) in the location, the rear end of blown-out shot bar (14) is provided with bottom in the described location, directional push-rod (12) is sleeved in the described location in the blown-out shot bar (14) and described bottom and rearward end is provided with directed handle (11), the front end of described directed sleeve (17) is opening, at least one side shaft of described directed sleeve (17) is to being provided with oriented chute (16), the end that described oriented chute (16) closes on blown-out shot bar (14) in the described location is provided with bayonet socket (15), be provided with the powder stick catch (18) that can be free to slide in the described directed sleeve (17), on the edge of described powder stick catch (18) with a screens salient point (20), described screens salient point (20) is in the described oriented chute (16), described powder stick catch (18) is connected with the front end of described directional push-rod (12), the outer surface of blown-out shot bar (14) is provided with the rule that characterizes shot depth in the described location, is set with a slip locating ring (21) in the described location on the outer surface of blown-out shot bar (14).
2. positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel according to claim 1, it is characterized in that: described screens salient point (20) and described directed handle (11) are in same plane.
3. positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel according to claim 1 and 2, and it is characterized in that: blown-out shot bar (14) is the antistatic steel-plastics composite pipe of long 1.5m~3m in the described location.
4. positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel according to claim 1 and 2, and it is characterized in that: described directed sleeve (17) is that an antistatic high-strength PVC pipe or steel are moulded the composite hollow light-wall pipe.
5. positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel according to claim 1 and 2, it is characterized in that: the width of described oriented chute (16) is identical with the width of described screens salient point (20), be all 3mm~5mm, described bayonet socket (15) size is than the wide 2mm of described screens salient point (20).
6. positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel according to claim 1 and 2, and it is characterized in that: described directional push-rod (12) is the solid body of rod of engineering duroplasts of diameter 18mm.
7. positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel according to claim 1 and 2, it is characterized in that: described powder stick catch (18) is the thick electrostatic prevention plastic steel disc of 2mm, and diameter agrees with mutually with the internal diameter of described directed sleeve (17).
8. positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel according to claim 1 and 2, it is characterized in that: described directed handle (11) and described screens salient point (20), oriented chute (16) are in same plane, and described directed handle (11) is the antistatic steel-plastics composite pipe of long 150mm, specification DN15.
9. positioning and directing pushes isolated plant in the directional fracture blasting cumulative cartridge bag hole, tunnel according to claim 1 and 2, it is characterized in that: be provided with screens spring (19) between the rear end of described powder stick catch (18) and described directed sleeve (17).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220570913 CN202903032U (en) | 2012-11-01 | 2012-11-01 | Positioning orientation pushing special device in tunnel orientation fracture explosion energy-gathered explosive package hole |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220570913 CN202903032U (en) | 2012-11-01 | 2012-11-01 | Positioning orientation pushing special device in tunnel orientation fracture explosion energy-gathered explosive package hole |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN202903032U true CN202903032U (en) | 2013-04-24 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201220570913 Withdrawn - After Issue CN202903032U (en) | 2012-11-01 | 2012-11-01 | Positioning orientation pushing special device in tunnel orientation fracture explosion energy-gathered explosive package hole |
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| Country | Link |
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| CN (1) | CN202903032U (en) |
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102901414A (en) * | 2012-11-01 | 2013-01-30 | 中南大学 | Device special for in-hole positioning, orientating and propelling of tunnel directional fracture blasting shaped charge |
| CN104613834A (en) * | 2015-01-23 | 2015-05-13 | 山东大学 | Placing device for TSP blast hole emulsion explosive and operation method |
| CN105625943A (en) * | 2016-01-11 | 2016-06-01 | 德阳坚兵工程技术有限公司 | Method for accurately controlling overbreak and underbreak by adopting peripheral hole formation through fine-adjustment drill rod of rock drilling jumbo |
| CN104007464B (en) * | 2014-06-13 | 2016-08-31 | 山东大学 | A kind of TSP big gun hole measures and powder charge integrated apparatus and method |
| CN109974546A (en) * | 2019-05-09 | 2019-07-05 | 中建八局轨道交通建设有限公司 | Dynamite charge device and its application method for controlled loading of explosive depth |
| CN110906823A (en) * | 2019-11-06 | 2020-03-24 | 西安交通大学 | A cartridge location big gun rod device for directional energy gathering drilling blasting |
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2012
- 2012-11-01 CN CN 201220570913 patent/CN202903032U/en not_active Withdrawn - After Issue
Cited By (9)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102901414A (en) * | 2012-11-01 | 2013-01-30 | 中南大学 | Device special for in-hole positioning, orientating and propelling of tunnel directional fracture blasting shaped charge |
| CN102901414B (en) * | 2012-11-01 | 2014-07-30 | 中南大学 | Device special for in-hole positioning, orientating and propelling of tunnel directional fracture blasting shaped charge |
| CN104007464B (en) * | 2014-06-13 | 2016-08-31 | 山东大学 | A kind of TSP big gun hole measures and powder charge integrated apparatus and method |
| CN104613834A (en) * | 2015-01-23 | 2015-05-13 | 山东大学 | Placing device for TSP blast hole emulsion explosive and operation method |
| CN105625943A (en) * | 2016-01-11 | 2016-06-01 | 德阳坚兵工程技术有限公司 | Method for accurately controlling overbreak and underbreak by adopting peripheral hole formation through fine-adjustment drill rod of rock drilling jumbo |
| CN109974546A (en) * | 2019-05-09 | 2019-07-05 | 中建八局轨道交通建设有限公司 | Dynamite charge device and its application method for controlled loading of explosive depth |
| CN109974546B (en) * | 2019-05-09 | 2023-11-03 | 中建八局轨道交通建设有限公司 | Explosive loading device for controlling loading depth and using method thereof |
| CN110906823A (en) * | 2019-11-06 | 2020-03-24 | 西安交通大学 | A cartridge location big gun rod device for directional energy gathering drilling blasting |
| CN110906823B (en) * | 2019-11-06 | 2021-05-28 | 西安交通大学 | A cartridge location big gun rod device for directional energy gathering drilling blasting |
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