CN209570542U - Determine the test device of cylindrical explosive gap distance under constraint condition - Google Patents

Abstract

The utility model provides a kind of test device of cylindrical explosive gap distance under determining constraint condition, including rigid constraint pipeline (5), the first rigid anti-splashing protective cover (4-1), the second rigid anti-splashing protective cover (4-2), the first rigid claw type support frame (6-1), the second rigid claw type support frame (6-2) and rigidity witness plate (7)；The inside of the rigid constraint pipeline (5) is respectively arranged donor charge packet (2) and at a certain distance by dispensing packet (3)；Wherein, the donor charge packet (2) is located at the interior middle point position of the rigid constraint pipeline (5)；The side for being located at the donor charge packet (2) by dispensing packet (3).Advantage are as follows: be it is a kind of just with implement, can effectively simulate the test device of cylindrical explosive gap distance under blasthole constraint condition, so that it is determined that gap distance of the cylindrical explosive under blasthole constraint condition, improves the accuracy of gap distance test.

Description

Determine the test device of cylindrical explosive gap distance under constraint condition

Technical field

The utility model belongs to cylindrical explosive gap distance the field of test technology, and in particular under a kind of determining constraint condition The test device of cylindrical explosive gap distance.

Background technique

Induced detonation is to cause a kind of phenomenon separated by a distance by dispensing packet detonation after donor charge packet explodes.Donor charge packet And by the spacing between dispensing packet be known as it is main can be ignited away from, donor charge packet by dispensing parlor be known as by the maximum spacing of dispensing packet it is fried The gap distance of medicine.Gap distance is in engineering explosion for determining decking, blind shot processing and reasonable Hole pattern parameters etc. All there is directive significance, be also the important evidence for determining safe distance in the design of explosive factory and dangerous goods storehouse.

Induced detonation is a considerably complicated process, both related with the propagation of energy various in explosive field, also and by dispensing itself It is related to the susceptibility of these outside stimulus.There is presently no the theoretically accurately moulds of this complicated phenomenon of quantitative description Type can only be studied by test.Existing commercial explosive gap distance test method is sand ground method, i.e., on flat ground On sand, the slot as explosive diameter is then marked on sand, by donor charge packet and by dispensing packet according to a fixed spacing Put, measure can allow by dispensing packet 3 times all complete detonation it is main by dispensing packet maximum spacing be the explosive gap distance.

Above-mentioned sympathetic detonation distance of explosive test method mainly has the following deficiencies: not doing to the Supporting Media i.e. property of sand Strict regulations out cause the wave impedance of Supporting Media to be not quite similar, and the gap distance measured different regions occur in the presence of certain poor Different problem.Importantly, explosive blasting used in Practical Project is generally not to occur under outdoor unconfined condition , and it is usually the explosion under Prescribed Properties in blasthole, by the gap distance and reality measured under outdoor unconfined condition For gap distance in the blasthole of border there is very big difference, deviation is sometimes up to decades of times or more.

Utility model content

In view of the defects existing in the prior art, the utility model provide under a kind of determining constraint condition cylindrical explosive induced detonation away from From test device, can effectively solve the above problems.

The technical solution adopted in the utility model is as follows:

The utility model provides a kind of test device of cylindrical explosive gap distance under determining constraint condition, including rigidity is about Beam tube road (5), the first rigid anti-splashing protective cover (4-1), the second rigid anti-splashing protective cover (4-2), the first rigid claw type branch Support (6-1), the second rigid claw type support frame (6-2) and rigidity witness plate (7)；

The inside of the rigid constraint pipeline (5) is respectively arranged donor charge packet (2) and at a certain distance by dispensing packet (3)； Wherein, the donor charge packet (2) is located at the interior middle point position of the rigid constraint pipeline (5)；It is described to be located at by dispensing packet (3) The side of the donor charge packet (2)；

The left side of the rigid constraint pipeline (5) is supported in checkout area by the described first rigid claw type support frame (6-1) Institute；The right side of the rigid constraint pipeline (5) is supported in test site by the described second rigid claw type support frame (6-2)； Wherein, the described first rigid claw type support frame (6-1) and the rigid constraint pipeline (5), the second rigid claw type support frame (6-2) and the rigid constraint pipeline (5) are a supporting way；

In the outside of the rigid constraint pipeline (5), be provide with respectively the described first rigid anti-splashing protective cover (4-1) and Described second rigid anti-splashing protective cover (4-2)；Wherein, the described first rigid anti-splashing protective cover (4-1) is carried out completely covers institute It states donor charge packet (2), and is not contacted with the outer tube wall of the rigid constraint pipeline (5)；Described second rigid anti-splashing protection Cover (4-2) is carried out completely to be covered described by dispensing packet (3), and is not contacted with the outer tube wall of the rigid constraint pipeline (5)；

In the rigid constraint pipeline (5) immediately ahead of the port by dispensing packet (3), it is described just to erect installation Property witness plate (7).

Preferably, the rigid constraint pipeline (5) is round steel pipe, and length is not less than 60 times of caliber.

Preferably, the described first rigid anti-splashing protective cover (4-1) and the second rigid anti-splashing protective cover (4-2) Structure it is identical, including protection cover body (1A), symmetrical strengthening wing (2A), flexible media layer (3A) and rigid handle (4A)；

Wherein, the protection cover body (1A) includes horizontally disposed cover sheet (1A-1), is welded in the protection cap Left plate (1A-2) and right side plate (1A-2) at left and right sides of plate (1A-1), before thus being formed the protection cover body (1A) The open structure in end, rear end and lower end；The flexible media layer is installed in the inner surface covering of protection cover body (1A) (3A)；In the protection front port position of cover body (1A), rear port position, that inner hub location is respectively welded and fixed is described right Claim strengthening wing (2A)；The rigid handle (4A) is each side welded and fixed in protection cover body (1A).

Preferably, the flexible media layer (3A) is flexible thick rubber layer.

Preferably, the protection cover body (1A) is low-carbon thick steel plate.

Preferably, the symmetrical strengthening wing (2A) includes symmetrical left triangle stiffening plate (2A-1) and right triangle Shape stiffening plate (2A-2).

Preferably, the knot of the described first rigid claw type support frame (6-1) and the second rigid claw type support frame (6-2) Structure is identical, including circular arc steel bar (1B), and three 120 ° of support steel feets each other are welded in the bottom of the circular arc steel bar (1B) (2B)。

Preferably, rigidity witness plate (7) is steel plate.

The test device of cylindrical explosive gap distance has the advantage that under determining constraint condition provided by the utility model

The test device of cylindrical explosive gap distance under determining constraint condition provided by the utility model, be it is a kind of just with reality It applies, can effectively simulate the test device of cylindrical explosive gap distance under blasthole constraint condition, so that it is determined that cylindrical explosive is in blasthole Gap distance under constraint condition improves the accuracy of gap distance test.

Detailed description of the invention

Fig. 1 is that the structure of the test device of cylindrical explosive gap distance under determining constraint condition provided by the utility model is shown It is intended to；

Fig. 2 is the sectional view radially of rigid anti-splashing protective cover provided by the utility model；

Fig. 3 is rigid anti-splashing protective cover provided by the utility model along axial sectional view；

Fig. 4 is the top cross-sectional view of rigid anti-splashing protective cover provided by the utility model；

Fig. 5 is the structural schematic diagram of rigid claw type support frame provided by the utility model.

Specific embodiment

The technical issues of in order to keep the utility model solved, technical solution and beneficial effect are more clearly understood, below In conjunction with accompanying drawings and embodiments, the present invention will be further described in detail.It should be appreciated that specific implementation described herein Example only to explain the utility model, is not used to limit the utility model.

The test device of cylindrical explosive gap distance under determining constraint condition provided by the utility model, be it is a kind of just with reality It applies, can effectively simulate the test device of cylindrical explosive gap distance under blasthole constraint condition, so that it is determined that cylindrical explosive is in blasthole Gap distance under constraint condition improves the accuracy of gap distance test.

The utility model provides a kind of test device of cylindrical explosive gap distance under determining constraint condition, with reference to Fig. 1, packet Include the rigid anti-splashing protective cover 4-1 of rigid constraint pipeline 5, first, the second rigid anti-splashing protective cover 4-2, the first rigid claw type Support frame 6-1, the second rigidity claw type support frame 6-2 and rigidity witness plate 7；

Rigid constraint pipeline 5 is round thick steel pipe, and length is not less than 60 times of caliber.The inside of rigid constraint pipeline 5 It is respectively arranged donor charge packet 2 at a certain distance and by dispensing packet 3；Wherein, donor charge packet 2 is located at the inside of rigid constraint pipeline 5 Midpoint；It is located at the side of donor charge packet 2 by dispensing packet 3；

The left side of rigid constraint pipeline 5 is supported in test site by the first rigidity claw type support frame 6-1；Rigid constraint The right side of pipeline 5 is supported in test site by the second rigidity claw type support frame 6-2；Wherein, the first rigid claw type support frame 6- 1 and the 5, second rigidity claw type support frame 6-2 of rigid constraint pipeline and rigid constraint pipeline 5 are a supporting way；With reference to Fig. 5, The structure of the rigid claw type support frame 6-2 of first rigidity claw type support frame 6-1 and second is identical, including circular arc steel bar 1B, circle The bottom of arc steel bar 1B weld three 120 ° of support steel feet 2B each other.It is between rigid claw type support frame and rigid constraint pipeline Point contact.

In the outside of rigid constraint pipeline 5, it is provide with the rigid anti-splashing of the first rigidity anti-splashing protective cover 4-1 and second respectively Protective cover 4-2；Wherein, the first rigidity anti-splashing protective cover 4-1 is carried out completely covers donor charge packet 2, and with rigid constraint pipeline 5 Outer tube wall do not contact；Second rigidity anti-splashing protective cover 4-2 is carried out completely to be covered by dispensing packet 3, and with rigid constraint pipeline 5 Outer tube wall do not contact；

In rigid constraint pipeline 5 immediately ahead of the port by dispensing packet 3, installation rigidity witness plate 7 is erect.Rigidity is shown in Card plate 7 be thick steel plate, for witness by dispensing packet whether induced detonation.

In the utility model, the structure of the rigid anti-splashing protective cover 4-2 of the first rigidity anti-splashing protective cover 4-1 and second is complete It is exactly the same, including protection cover body 1A, symmetrical strengthening wing 2A, flexible media layer 3A and rigid handle 4A；

Wherein, protection cover body 1A is low-carbon thick steel plate.Protection cover body 1A include horizontally disposed cover sheet 1A-1, Thus the left plate 1A-2 and right side plate 1A-2 being welded at left and right sides of cover sheet 1A-1 make before protecting cover body 1A to be formed End, rear end and lower end opening, the rectangular parallelepiped structure of central cavity；It is rushed in the inner surface covering of protection cover body 1A for weakening Breaking up bad flexible media layer 3A, flexible media layer 3A is flexible thick rubber layer.Protection cover body 1A front port position, after The symmetrical strengthening wing 2A of same material is respectively welded and fixed in port position, inner hub location；Wherein, symmetrical strengthening wing 2A includes a left side Right symmetrical left triangle stiffening plate 2A-1 and right triangle stiffening plate 2A-2.Symmetrical strengthening wing 2A height is protective cover height 3/4 or more.Protection cover body 1A's is each side welded and fixed rigid handle 4A.

Therefore, the utility model utilize simple and reliable, high efficiency, low cost test device, make test process it is safer, Test result is more intuitive accurate, the accurate true gap distance for determining cylindrical explosive in blasthole (under constraint condition), to quick-fried Reasonable Arrangement explosive interval in broken driving saves primacord, reduces blasting cost, improve loading rate, ensure safety etc. It is of great significance.

Based on the test device for determining cylindrical explosive gap distance under constraint condition, following test method can be used and surveyed Examination:

Step 1, determining needs cylindrical explosive and coefficient of decoupling charge K to be tested；The column tested as needed is fried The explosive type of medicine, primarily determine need the induced detonation of cylindrical explosive to be tested under this coefficient of decoupling charge K constraint condition away from From test value L, the good cylindrical explosive of integrality is selected, a diameter of d, length A are fabricated to donor charge packet 2 and by dispensing packet 3；Wherein, donor charge packet 2 is also referred to as igniting primer.

Step 2, more root timber matter and the identical rigid constraint pipeline 5 of volume are selected；The length of every rigid constraint pipeline 5 It spends X and is not less than 2L+5A, diameter D is equal to K*d；

Step 3, clean smooth unmanned place is used as survey at the regional choice one far from residential block and important construction Examination hall institute；

Step 4, test device is set up, step includes:

Step 4.1, pass through the rigid claw type support frame 6-2 frame of the first rigidity claw type support frame 6-1 and second in test site If a rigid constraint pipeline 5；

Donor charge packet 2 is sent into the midpoint of rigid constraint pipeline 5, by by dispensing packet 3 from rigid constraint pipeline 5 Designated position is sent into one end, so that donor charge packet 2 is equal to gap distance test value L with by the spacing of dispensing packet 3, and ensure donor charge The sockets for collecting energy of detonator 1 in packet 2 is towards by dispensing packet 3；

Step 4.2, in the outside of rigid constraint pipeline 5, it is rigid that it is provide with the first rigidity anti-splashing protective cover 4-1 and second respectively Property anti-splashing protective cover 4-2；And the rigidity anti-splashing protective cover 4-2 of mobile first rigidity anti-splashing protective cover 4-1 and second, make the One rigidity anti-splashing protective cover 4-1 is carried out completely covers donor charge packet 2, and does not contact with the outer tube wall of rigid constraint pipeline 5；Make Second rigidity anti-splashing protective cover 4-2 is carried out completely to be covered by dispensing packet 3, and is not contacted with the outer tube wall of rigid constraint pipeline 5；

Step 4.3, installation rigidity witness plate 7 makes it stand on the close port by dispensing packet 3 of rigid constraint pipeline 5 just Front；

Step 5, detonate donor charge packet 2 outside enough safe distances, is returning momentarily to test site and carries out the sight of induced detonation effect Assessment is estimated, and determines by the whether complete induced detonation of dispensing packet 3；If thening follow the steps 6 without complete induced detonation；If complete induced detonation, Execute step 7；

In step 5, determined in the following ways by the whether complete induced detonation of dispensing packet 3: first from the master of rigid constraint pipeline 5 2 end of dispensing packet sees whether proper detonation, and then whether primary part observation is burst by 3 end pipe road of dispensing packet, and the carefully side ducts Whether there is explosive residual on inner wall and rigidity witness plate 7, determines by the whether complete induced detonation of dispensing packet 3.

Specifically, observation rigid constraint pipeline 5 arrangement by the explosion situation of 3 position of dispensing packet, if by bursting, table Show by the complete induced detonation of dispensing packet 3；Alternatively, the arrangement of observation rigid constraint pipeline 5 is by the inner wall of 3 side of dispensing packet and rigidity witness plate Whether explosive residual is had on 7, if it is not, indicating by the complete induced detonation of dispensing packet 3.

Step 6, by design step-length spacing △ L reduce it is main by dispensing parlor away from, it may be assumed that make donor charge packet 2 with by dispensing packet 3 Spacing is equal to L- △ L；Then it after the rigid constraint pipeline 5 more renewed, after setting up test device again in the way of step 4, presses The mode of step 5 carries out second of test, if still without complete induced detonation, continue to reduce it is main by dispensing parlor away from making to lead Dispensing packet 2 is equal to L-2 △ L with by the spacing of dispensing packet 3, then carries out third time test；It is so constantly tested, until being sent out The complete induced detonation of pack 3, record it is main at this time by dispensing parlor away from, by record at this time it is main by dispensing parlor away from repeating test two It is secondary, if continuous 3 times by the complete induced detonation of dispensing packet 3, it is corresponding at this time it is main by dispensing parlor away from being to determine constraint condition The gap distance of lower cylindrical explosive, test terminate；

In practical application, can by reduce every time it is main by dispensing parlor away from setting one the larger value, for example, if L be 1.5 Rice；If when it is main by dispensing parlor away from being 1.5 meters when, by dispensing packet 3 without complete induced detonation；Then when testing for second, it will lead By dispensing parlor away from being adjusted to 1.0 meters, if at 1.0 meters by the complete induced detonation of dispensing packet 3；Then add between 1.5 meters and 1.0 meters Insert battery of tests, for example, by it is main by dispensing parlor away from being adjusted to 1.1 meters, then tested；It so constantly repeats, finally with even The main gap distance by dispensing packet maximum spacing as explosive under the constraint condition of continuous 3 complete induced detonation.

Step 7, by design step-length spacing △ L increase it is main by dispensing parlor away from, it may be assumed that make donor charge packet 2 with by dispensing packet 3 Spacing is equal to L+ △ L；Then it after the rigid constraint pipeline 5 more renewed, after setting up test device again in the way of step 4, presses The mode of step 5 carries out second of test, if still complete induced detonation, continue to increase it is main by dispensing parlor away from making donor charge Packet 2 is equal to L+2 △ L with by the spacing of dispensing packet 3, then carries out third time test；It is so constantly tested, until by dispensing packet 3 without complete induced detonation, record by dispensing packet 3 without once being tested before complete induced detonation when it is main by dispensing parlor away from by this time Record it is main by dispensing parlor away from repeat test twice, if continuous 3 times by the complete induced detonation of dispensing packet 3, correspond at this time It is main by dispensing parlor away from being the gap distance for determining cylindrical explosive under constraint condition, test terminates.

The test device and method for determining cylindrical explosive gap distance under constraint condition, by applicant in test site reality Application is trampled, is successfully realized over-the-counter simulation gap distance development test, and compare with test data in practical hole, the results show that The utility model determines the blasting parameter that the test device of cylindrical explosive gap distance under constraint condition obtains, with corresponding hole Interior actual tests parameter is essentially identical, thus demonstrates the accuracy of the utility model test method.

The test device of cylindrical explosive gap distance under determining constraint condition provided by the utility model has following excellent Point:

(1) rigid claw type support frame and rigid constraint pipeline point contact, and constrain material property and stablize, test variable is few, Therefore, it can quick and precisely determine gap distance of the cylindrical explosive under blasthole constraint condition, have measurement result more intuitive, quasi- True advantage.

(2) it donor charge packet and rigid anti-splashing protective cover is coated with by dispensing protects well, explosion splash is controlled System in rigid anti-splashing protective cover, will not splashes cause security risk.Has the advantages that test process safety.

(3) test device building is easy quickly, and without drilling, sanding, test of many times only needs to change rigid constraint pipeline i.e. It can.

(4) can intuitively observe the destruction situation of rigid constraint pipeline, thus judge by hair explosive whether induced detonation, therefore, Measurement result is more more intuitive than conventional method, accurate.

Therefore, cylindrical explosive gap distance of the cylindrical explosive under blasthole constraint condition can be fast and accurately determined, it should Test process safety, not will cause security risk.The test device has simple and reliable, efficient, at low cost, building simplicity quickly The characteristics of, and measurement result is more intuitive, accurate, and over-the-counter experiment test device variation is few, and analogue data is more stable, It can effectively instruct to be widely applied test.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without departing from the principle of this utility model, several improvements and modifications can also be made, these improve and Retouching should also regard the protection scope of the utility model.

Claims (8)

1. the test device of cylindrical explosive gap distance under a kind of determining constraint condition, which is characterized in that including rigid constraint pipe Road (5), the first rigid anti-splashing protective cover (4-1), the second rigid anti-splashing protective cover (4-2), the first rigid claw type support frame (6-1), the second rigid claw type support frame (6-2) and rigidity witness plate (7)；

The inside of the rigid constraint pipeline (5) is respectively arranged donor charge packet (2) and at a certain distance by dispensing packet (3)；Wherein, The donor charge packet (2) is located at the interior middle point position of the rigid constraint pipeline (5)；It is described be located at by dispensing packet (3) it is described The side of donor charge packet (2)；

The left side of the rigid constraint pipeline (5) is supported in test site by the described first rigid claw type support frame (6-1)； The right side of the rigid constraint pipeline (5) is supported in test site by the described second rigid claw type support frame (6-2)；Wherein, Described first rigid claw type support frame (6-1) and the rigid constraint pipeline (5), the second rigid claw type support frame (6-2) It is a supporting way with the rigid constraint pipeline (5)；

In the outside of the rigid constraint pipeline (5), it is provide with the described first rigid anti-splashing protective cover (4-1) and described the respectively Two rigid anti-splashing protective covers (4-2)；Wherein, the described first rigid anti-splashing protective cover (4-1) is carried out completely covers the main hair Pack (2), and do not contacted with the outer tube wall of the rigid constraint pipeline (5)；Described second rigid anti-splashing protective cover (4-2) Shoe covers described by dispensing packet (3) completely, and does not contact with the outer tube wall of the rigid constraint pipeline (5)；

In the rigid constraint pipeline (5) immediately ahead of the port by dispensing packet (3), erects the installation rigidity and see It demonstrate,proves plate (7).

2. the test device of cylindrical explosive gap distance under determining constraint condition according to claim 1, which is characterized in that The rigid constraint pipeline (5) is round steel pipe, and length is not less than 60 times of caliber.

3. the test device of cylindrical explosive gap distance under determining constraint condition according to claim 1, which is characterized in that Described first rigid anti-splashing protective cover (4-1) is identical with the structure of the described second rigid anti-splashing protective cover (4-2), packet Include protection cover body (1A), symmetrical strengthening wing (2A), flexible media layer (3A) and rigid handle (4A)；

Wherein, the protection cover body (1A) includes horizontally disposed cover sheet (1A-1), is welded in the cover sheet Left plate (1A-2) and right side plate (1A-2) at left and right sides of (1A-1), thus make the protection cover body (1A) formed front end, The structure of rear end and lower end opening；The flexible media layer is installed in the inner surface covering of protection cover body (1A) (3A)；In the protection front port position of cover body (1A), rear port position, that inner hub location is respectively welded and fixed is described right Claim strengthening wing (2A)；The rigid handle (4A) is each side welded and fixed in protection cover body (1A).

4. the test device of cylindrical explosive gap distance under determining constraint condition according to claim 3, which is characterized in that The flexible media layer (3A) is flexible thick rubber layer.

5. the test device of cylindrical explosive gap distance under determining constraint condition according to claim 3, which is characterized in that The protection cover body (1A) is low-carbon thick steel plate.

6. the test device of cylindrical explosive gap distance under determining constraint condition according to claim 3, which is characterized in that The symmetrical strengthening wing (2A) includes symmetrical left triangle stiffening plate (2A-1) and right triangle stiffening plate (2A-2).

7. the test device of cylindrical explosive gap distance under determining constraint condition according to claim 1, which is characterized in that Described first rigid claw type support frame (6-1) is identical with the structure of the described second rigid claw type support frame (6-2), including circle Three 120 ° of support steel feets (2B) each other are welded in arc steel bar (1B), the bottom of the circular arc steel bar (1B).

8. the test device of cylindrical explosive gap distance under determining constraint condition according to claim 1, which is characterized in that Rigidity witness plate (7) is steel plate.