KR0126994Y1 - Non-electric detonator blasting apparatus - Google Patents

Abstract

The present invention relates to a detonation signal bundle connection device of a non-electrical primer designed to be convenient to use when the blasting design of a non-electromagnetic primer using a signal tube needs to transmit a detonation signal to several primers at a time. .

In other words, in the present design, as a connecting device for detonating several signal tubes, a detonator is installed for detonation primers and detonators and for amplification so that the detonation line is wrapped with a signal tube and detonated. As it appears, a tightening pin was installed to maintain the tightened state, and a detonation signal bundle connecting device for a non-electric primer having a feature of forming a cover to prevent detachment of the primer at the back of the main body was used. In this case, it is possible to prevent blast failure such as cutoff during blasting, and the signal transmission primers mounted on the connection device may have the same delay time, as well as to diversify the blasting pattern by using different delay time. Can be obtained.

Description

Non-electric primer detonator signal bundle connector

Figure 1 is a side perspective view of the non-electric primer detonation signal bundle connection device according to the present invention.

Figure 2 is a perspective view of a state in which the doped wire is removed from the non-electrical primer detonation signal bundle connection device according to the present invention.

Figure 3 is a side cross-sectional view of the bundle of the signal tube (shock tube) of the non-electrical primer by using the non-electrical primer detonation signal bundle connection device according to the present invention.

Figure 4 is an illustration of connecting a plurality of non-electrical primer in the non-electrical primer detonation signal bundle connection device according to the present invention.

5 is a state diagram connecting the connection device of the present invention in the tunnel blasting using a non-electric primer detonation signal bundle connection device of the present invention.

* Explanation of symbols for main parts of the drawings

1: main body 2a: primer insertion hole

2: detonator signaling primer 3: tightening pin

4: Tightening pin moving groove 5: Drapery insertion hole

6: dopuk pull hole 7: detonator cover

8: signal tube 9: depletion line

10: bundle of signal tubes

11: contact surface transmitted by detonation of the primer and the bomber

12: Pulling direction of the dopant line 13: Pushing pin

14: detonator for detonation drug 15: bundle and contact surface of the signal tube

16: inside the ring made by the detonation line 20: non-electric detonation signal bundle connecting device

21: blast hole 22: starter primer

23: blast cross section of the tunnel 24: delayed start of the primer in the blast hole

It is designed to be convenient to use when the blasting design of the blasting site of the non-electrical primer using the signal tube (Signal tube or Shock tube) of the present invention needs to transmit the detonation signal to multiple blasting holes, that is, several primers at one time. It relates to a non-electric primer detonator signal bundle connection device.

Examples of non-electric primers include surface delay connectors of non-electric primers, called TLD (Trunk Line Delay), and MS-connectors, which are known as doppler wires when used as surface signal connectors. .

Such delayed connection devices can connect only about 1 to 8 non-electrical primers or dopant wires, and their use is divided into groups that are temporarily exploded at the surface of the blasting surface, thereby enhancing the blasting effect and reducing blasting vibration and blasting noise. It is used for the purpose.

However, it is difficult to use a delayed connection device such as a general TLD in a blasting where a long step delay time is required in a place where the blasting holes are close and the entire blasting cross section is narrow like a tunnel blasting.

In other words, in the tunnel blasting, a delay time of 100 ms or more should be given, so that the previous blasted stone is completely pushed out of the blasting surface to form the free surface of the next blasting, thereby improving the blasting effect. However, if a step of more than 100ms is formed in a narrow space with a TLD, there is a possibility that cut-off occurs due to the signal tube of the TLD that is still in progress due to the zeolite generated during the detonation of the blast hole. The blasting is stopped from and the blasting fails. Therefore, in a tunnel or the like, a primer having a long step is installed in a detonation medicine in a blast hole, and then divided into a large group and a method of transmitting a detonation signal at a time by group is mainly used.

Since there are about 15 to 20 groups in this group, it is difficult to use a non-electric primer in this case because it is impossible to detonate several times at a time with a connection device such as a TLD.

The present invention proposes a connection device that can detonate several signal tubes as devised to solve the above problems.

In other words, in the connection device equipped with only a primer, when igniting (or detonating) several signal tubes (or primers), only one primer can be detonated by one primer, so the connection device of the present invention has an atomizer for detonation. In order to increase the detonation effect, the detonation line is installed to detonate the signal tube, and the detonation effect is different depending on the state of the depletion line. In addition, to provide a new connecting device such as to form a cover to prevent the detachment of the primer on the back of the main body, the connecting device of the present invention will be described in detail by the accompanying drawings.

1 and 2 show the structure of the connecting device of the present invention. As can be seen from the present invention, the signal transmission primer 2 is mounted on the main body 1, and the dopant line 9 is installed through the dopant line insertion slot 5 and the dopant line pulling hole 6 of FIG.

In addition, the main body has a fastening pin moving flaw (4), which is equipped with a fastening pin (3), when the bundle (10) of the signal tube bundle (10) of the non-electrical primer, grab the dop wire (9) The signal nub 10 is kept in a fastened state, and the inner top of the fastening pin moving groove 4 and the surface of the fastening pin 3 are knurled in parallel with the fastening pin in the direction of tightening pin. (3) was not pushed in the opposite direction to the tightening direction (13).

In addition, the main body is equipped with a detonation prevention cover 7 to prevent the primer 2 mounted on the main body from escaping, and the signal tube bundle 10 and the contact portion of the main body 1 on the curved surface (approximately 10R inside and outside) When the bundle formed by the bundle of the signal tube bundle (10) to the cross section to achieve the diameter of the design was designed so that the detonation force generated at the end of the primer and the depletion line (9) to the maximum effect on the signal tube.

According to the present invention, when the primer 2 is inserted into the exterior insertion hole 2a of the main body 1 and the release prevention cover 7 of the primer is locked, the mounting of the signal transmission primer 2 is completed on the main body 1. do. In addition, a dopant wire of approximately 3 to 10 g / m is used as a dopant wire that is mounted to transmit the detonation signal to a plurality of signal tubes, and the dopant wire 9 is about two holes of the dopant wire insertion hole 5 shown in FIG. Both ends of the dopant line 9 cut about 30 to 60 cm are pushed into the respective holes. Pull out the dopant line 9 which has passed through the hole, and when the dopant line 9 is completely attached to the dopant line insertion hole, both ends of the dopant line 9 are collected and pushed into the dopant line pulling hole 6. At this time, when the tightening pin 3 is pushed up in the opposite direction of the tightening direction 13, the dopant line 9 can be easily pushed in.

In this way, when the dop wire (9) is mounted, a bundle ring (16) is formed to form two strands of the dop wire, and the signal tube bundle (10) is put there and the two ends of the dop wire (9) are held together and pulled with a tightening pin ( When 3) is pushed in the tightening direction 13, the dopant wire 9 is fixed by tightening the bundle of the signal tube bundle 10. The cross section of such a state is shown in FIG.

When the signal is sent to the signal tube (8) of the signal transmission primer (2) mounted in the connecting device in the state connected in this way, the signal transmission primer (2) is detonated to contact the contact surface (11) on both sides connected to the doped wire (9) The detonation force, which is continuously generated at the end of the primer, acts toward the central portion of the signal tube bundle 10 to transmit the detonation signal to the entire signal tube bundle 10.

Therefore, the detonation line 9, which receives the detonation signal from the detonator, transmits the detonation signal toward the center from the surface of the signal tube bundle 10 that surrounds the detonation signal. Will be.

In this way, the detonation signal is transmitted to each detonation drug primers 14 through the signal tube (8) and each detonation drug detonator 14 detonates after the delay time set in each primer to lead to detonation By blasting is made.

4 is a detailed illustration of a state in which a plurality of non-electrical primers are connected to the non-electrical primer detonator signal connecting device according to the present invention.

Figure 5 shows an example of the tunnel blasting using the connection device of the present invention, 53 blast holes 21 on the blasting cross section 23 using four connection devices 20, one starter primer 22 It shows an example of blasting using. Here, the signal tube 8 connected to the connecting device 20 of the present invention in the detonation weakening primer 14 that is inserted into each blast hole 21 should be pulled tightly to the connecting device to prevent blast failure such as cutoff. . In addition, all of the signal transmission primers 2 mounted on the connection device 20 of the present invention may have the same delay time, or may use different delay time to diversify the blasting pattern.

On the other hand, the connection device of the present invention is designed to use a depot wire in addition to the non-electric primer in the signal delivery, in this case, if the doppler wire is inserted into the insertion hole (2a) of the signal delivery primer in place of the signal delivery primer It can be used as a non-electric primer detonator signal bundle connector. In this case, the detonation signal of the signal transmission derailment line is the ring-forming derailment line 9 to transmit the detonation signal to the signal tube bundle 10.

Claims (2)

The signal transmission primer 2 or the doping wire is attached to the trunk center primer insertion hole 2a of the main body 1, and at the site of the main body insertion contact 2a below the end of the primer insertion hole 2a. The dopant line insertion hole 5 is formed and the dopant line insertion hole 5 is formed at a portion in contact with the primer insertion hole 2a on the opposite side of the primer insertion hole 2a and symmetrically. The dopant line (9) inserted into the loop returns to the dopant line pulling hole (6) to form a loop so as to bind the target of the detonation signal transmission, such as the signal tube bundle (10), and a tightening pin groove (4) above the dopant line pulling hole. ) And fastening pins (3) were installed to hold the signal wires when bundling the signal tube bundle (10) to maintain the signal tube bundle (10) in a tightened state, and the end body of the signal transmission primer (2) was curved Consists of preventing the detachment of the primer at the back of the body Non-electric blasting initiation signal bundle connector, characterized in that which forms the cover (7). The apparatus of claim 1, wherein knurling is formed on an inner upper surface of the tightening pin groove and a surface of the tightening pin.