KR101143319B1 - Cartridge Assembly for Crushing Rock - Google Patents

Abstract

The present invention discloses a blasting cartridge assembly for rock crushing to improve construction performance and to reduce initial ignition efficiency and misfire rate. The present invention is a cartridge cover having a predetermined length in the longitudinal direction and the inside is empty in the form of a connecting protrusion end, the other end is formed with a connection screw groove; A probe having a connection portion formed on a portion of an outer circumferential surface of the cartridge cover to be coupled to the connection screw groove of the cartridge cover, a PCB board installed at one end of the connection portion and provided with a plurality of circuit elements, and a pair of electrodes electrically connected to the PCB board. And a spark plug having a housing coupled to one end of the connection portion to accommodate the PCB board.

Description

Cartridge assembly for blasting for rock crushing {Cartridge Assembly for Crushing Rock}

The present invention relates to a blasting cartridge assembly for rock crushing, and more particularly, to a blasting cartridge assembly for rock crushing which can increase construction performance, improve initial ignition efficiency and reduce incidence.

In general, explosives are mounted so as to be crushed by applying a strong impact to rocks or rocks in order to increase work efficiency during tunneling or subway construction.

Such explosives were mainly used for explosives or dynamite. However, such explosives of explosives or dynamite not only had a risk of being exploded by carelessness or impact of management in the storage or transport process, but also have a problem that adversely affects the surrounding environment as a huge explosion sound is generated during the explosion process. .

In recent years, explosives for rock fracture are rapidly discharged to the metal oxide causing oxidation reaction instead of explosives or dynamite, and the medium expands and generates heat during the oxidation reaction between the electrolyte and the metal oxide contained in the cartridge, thereby impacting the surroundings. A 'expanded metal mixture' is used to add an object to fracture.

The expansive metal mixture is composed of a metal salt which is an oxidizing agent, a metal powder which is increased in volume by an exothermic reaction while being oxidized by the metal salt, and a rapidly expanding metal mixture which mixes a reaction accelerator for promoting an oxidation reaction between the metal salt and the metal powder. .

In addition, as an electric spark induction electrolyte, a solution obtained by dissolving ammonium borate, nitrate, sulfate, and the like in glycerol and alcohols such as ethylene glycol and alcohols was used as the electro sparking electrolyte.

1 is an exemplary view showing a cartridge structure for blasting for conventional rock crushing. As shown in FIG. 1, the conventional cartridge structure 30 includes a cylindrical case 31 containing a metal oxide, an upper cap 32 and a lower cap 34 that block upper and lower portions of the case 31, and the case. It is composed of a fixed terminal 41, a power supply 42 for supplying a current to the fixed terminal 41 and a wire 33 so that a large current is applied to the medium accommodated in the (31).

Here, a predetermined gap layer is formed between the fixed terminals 41, and an initiator wire 44 is connected between the ends of the fixed terminals 41.

In this configuration, a large current flows between the pair of fixed terminals 41 by switching from the power supply unit 42, and is discharged from the detonation wire 44 to form a plasma channel. In the process occurring in the plasma channel, the volume of the metal expander 20 is expanded to expand the blast hole. Unmarked '35' is the pressure tube, '36' is the original, and '37' is the spring.

However, the conventional blasting cartridge has a problem that the discharge wire is shortly connected in the radial direction of the case, the discharge efficiency delivered to the metal oxide is not improved. In addition, as the metal oxide contained in the case is deposited or stored in the lower part of the case while the metal oxide is stored or moved, the pores become denser between the oxides and remain as an air layer on the upper part of the case, thereby degrading the detonation performance of the detonation wire. There was a functioning problem.

SUMMARY OF THE INVENTION The present invention has been made in view of the above needs, and an object thereof is to provide a cartridge assembly for crushing rock that can improve construction performance, increase initial ignition efficiency, and reduce incidence.

According to an embodiment of the present invention for achieving the above object, a cartridge cover having a predetermined length in the longitudinal direction and the inner side is empty in one end is formed with a connection protrusion, the other end is formed with a connection screw groove; A probe having a connection portion formed on a portion of an outer circumferential surface of the cartridge cover to be coupled to the connection screw groove of the cartridge cover, a PCB board installed at one end of the connection portion and provided with a plurality of circuit elements, and a pair of electrodes electrically connected to the PCB board. And it is provided with a cartridge assembly for blasting rock including a spark plug having a housing coupled to one end of the connecting portion to receive the PCB board.

In the probe of the spark plug, an ignition agent accommodating cup for protecting the electrode and filling the ignition agent is preferably inserted therein.

The tip of the ignition agent receiving cup is preferably equipped with a dust cap penetrated larger than the diameter of the other end.

At least one spline groove is preferably formed at one end surface of the housing of the spark plug to induce a forward explosion.

Preferably, at least one crimping line for improving airtightness is formed on an outer circumferential surface of the housing to which the housing and the connection part of the spark plug are coupled.

The connection part of the spark plug is preferably equipped with a packing ring for airtightness when combined with the cartridge cover.

It is preferable that a packing ring for maintaining airtightness is fitted to the connection protrusion end of the cartridge cover.

An end portion of the cartridge cover in which the connection screw groove is formed is formed by screwing a separate coupling member to an end of the cartridge cover, wherein the coupling member has the connection screw groove formed therein, and an end of the connection screw groove. The closed portion is formed in a closed state, the periphery of the finish portion may be formed by cutting line to be easily removed by external force.

According to the present invention, it is possible to quickly install a plurality of cartridge covers in a line has the effect of improving the construction efficiency.

In addition, the present invention can improve the initial ignition efficiency at the time of blasting through the spark plug installed in the cartridge cover, can reduce the initial failure rate and achieve a stable and rapid blasting performance.

1 is an exemplary view showing a cartridge structure for blasting for conventional rock crushing,
Figure 2 is an exemplary view showing a cartridge cover of the cartridge assembly for blasting for rock crushing according to an embodiment of the present invention,
3 is an exemplary view showing a state in which the cartridge cover of the cartridge assembly for blasting for rock crushing in accordance with an embodiment of the present invention is installed continuously,
Figure 4 is an exemplary view showing the finish of the cartridge cover of the cartridge assembly for blasting for rock fracture in accordance with an embodiment of the present invention,
5 is an exemplary view showing a state in which the spark plug is coupled to the blast cartridge assembly for rock crushing according to an embodiment of the present invention,
6 is a block diagram showing each component of the spark plug of the cartridge assembly for blasting for rock fracture according to an embodiment of the present invention,
Figure 7 is a perspective view of the spark plug of the cartridge assembly for blasting for rock fracture in accordance with an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, the blasting cartridge assembly of the present invention is largely composed of a cartridge cover 50 and a spark plug 70 coupled thereto.

2 is an exemplary view showing a cartridge cover of the blasting cartridge assembly for rock crushing according to an embodiment of the present invention, Figure 3 is a cartridge cover of the blasting cartridge assembly for rock crushing according to an embodiment of the present invention Figure 4 is an exemplary view showing a continuous installation, Figure 4 is an exemplary view showing the finish of the cartridge cover of the cartridge assembly for blasting for rock crushing according to an embodiment of the present invention.

2 to 4, the cartridge structure 50 of the blasting cartridge assembly consists of a cylindrical cylinder in the longitudinal direction. Also, at one end, a protruding end 51 having a thread 52 is formed, and at the other end, the other end coupling part 54 having a thread 55 formed on an outer circumference thereof is formed.

In addition, a separate coupling member 60 may be fastened to the other end coupling portion 54, and the coupling member 60 has a connection screw groove 62 formed therein. In addition, the inner end of the connecting screw groove is formed a closed portion 61 in a sealed state.

Here, the closing portion 61 is formed when the cutting line 63 is formed in the periphery of the protruding end 51 of the other cartridge structure 50a, the closing portion 61 is easily along the cutting line 63. Can be removed.

On the other hand, such a cartridge structure 50 may be connected in series long as shown in FIG. That is, it is possible to easily connect a plurality in series by fastening and mounting the protruding end 51 of the first cartridge structure 50a to the connecting screw groove 62 of the second cartridge structure 50b.

Here, the packing end 59 may be coupled to the protruding end 51, so that when connecting a plurality of cartridge structures in series, it is of course possible to improve the airtightness of the connection portion of each other.

5 is an exemplary view showing a state in which the spark plug of the blasting cartridge assembly for rock crushing according to an embodiment of the present invention is coupled, Figure 6 is a blasting cartridge for rock crushing according to an embodiment of the present invention Figure 7 is a schematic view showing each component of the spark plug of the assembly, Figure 7 is a perspective view of the spark plug of the blast cartridge assembly for rock crushing according to an embodiment of the present invention.

5 and 7, the spark plug 70 of the blasting cartridge assembly may be mounted and installed on the coupling member 60 coupled to the end of the cartridge assembly 50.

Specifically, the spark plug 70 is largely composed of a connection portion 74 formed with a thread and a PCB board 76 on which various circuit elements are installed. At this time, the hexagonal bolt head 77 is formed at the front end of the connection portion 74 so as to be easily fastened, and the O-ring 75 for sealing is fitted between the hexagonal bolt head 77 and the connection portion 74.

Meanwhile, a PCB board 76 for delaying the blasting signal is connected to the end of the connecting portion 74. Specifically, the PCB board 76 is formed with a bridge 74a extending from the connecting portion 74. It is installed in the soldered state at 74a.

In addition, a pair of electrodes 73 electrically connected to the circuit elements are formed at the end of the PCB board 76. Specifically, the electrode 73 is formed with a probe portion 73a soldered inside. It is connected to the PCB board 76. Moreover, the mounting protrusion 73b is formed in the outer peripheral surface of this probe part 73a. Reference numeral 'L' is an angle line for supplying current to the electrode 73.

In order to protect the electrode 73, the ignition agent receiving cup 72 may be fitted to the end of the PCB board 76, which is inserted into the housing 71 inside the ignition agent receiving cup 72. A small amount of ignition agent to detonate the gunpowder is included, and in this state, the ignition agent receiving cup 72 can be fitted to the electrode 73 of the PCB board 76. In addition, the ignition agent accommodating cup 72 has a partition 72a formed therein, and a mounting groove 72b fastened to the mounting protrusion 73b of the probe portion 73a on an inner circumferential surface thereof.

On the other hand, the dust cap 78 may be mounted to the ignition agent receiving cup 72. The dust cap 78 may be made to have a funnel shape (through shape) in which the diameter of one end is larger than the diameter of the other end.

The dust cap 78 having such a shape has a housing 71 due to the pressure that the gunpowder charged inside the housing 71 is pressurized when the PCB board 76 is inserted when the PCB board 76 is inserted into the housing 71. ) It is applied as a means to prevent the discharge to the outside.

That is, the dust cap 78 is made of a size in close contact with the inner diameter of the housing 71, and when the PCB board 76 is drawn into the housing 71 by a wide upper portion and a narrow radial shape of the lower portion, the housing ( 71) It is possible to prevent the gunpowder charged in the inside to be discharged to the outside, and the air inside the exhaust through the narrow hole in the dust cap 78, it is possible to assemble a stable spark plug 70.

Meanwhile, when the PCB 74 is inserted into the housing 71 and the connection portion 74 and the housing 71 are coupled to each other, the coupling portion 79 of the housing 71 is compressed to form a pressing line 79. ) It can seal the inside. Accordingly, the watertightness to groundwater can be improved.

In addition, a plurality of spline grooves S may be formed on the front end surface of the housing 71 to induce an explosion in front of the spark plug 70. Accordingly, the explosion force of the spark plug 70 at the time of detonation can be concentrated to be forwarded to the gunpowder charged in the cartridge cover 50, thereby reducing the incidence rate.

While the present invention has been particularly shown and described with reference to the particular embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

50: cartridge cover 51: connecting protrusion
52, 55: thread 53: cartridge body
54: other end coupling portion 56: connection screw groove
60: coupling member 61: the finish
70: spark plug 71: housing
72: igniter receiving cup 73: electrode
74: connection 75: packing ring
76: PCB board 78: dust cap

Claims (9)

A cartridge cover having a predetermined length in the longitudinal direction, and having a connection protrusion end formed at one end thereof and having a connection screw groove formed at the other end thereof; And
Blasting cartridge assembly for rock crushing, characterized in that it comprises a spark plug having a threaded connection to a portion of the outer circumferential surface to be coupled to the connecting screw groove of the cartridge cover. The method of claim 1,
The spark plug;
A PCB board installed at one end of the connection part and provided with a plurality of circuit elements;
A probe having a pair of electrodes electrically connected to the PCB board, and
Blasting cartridge assembly for rock crushing, characterized in that it comprises a housing coupled to one end of the connecting portion to receive the PCB board. The method of claim 2,
And a ignition agent accommodating cup into the probe of the spark plug to protect the electrode and to charge the ignition agent therein. The method of claim 3,
The tip end of the ignition agent receiving cup is a blast cartridge assembly for rock crushing, characterized in that the dust cap penetrates larger than the diameter of the other end. The method of claim 2,
At least one spline groove is formed on one end surface of the housing of the spark plug to induce a forward explosion. 6. The method according to claim 2 or 5,
Blasting cartridge assembly for rock crushing, characterized in that at least one pressing line for improving the airtightness is formed on the outer peripheral surface of the housing coupled to the housing and the connecting portion of the spark plug. The method of claim 1,
The spark plug cartridge assembly for rock fracture, characterized in that the connection portion of the spark plug is equipped with a packing ring for improving the airtightness when combined with the cartridge cover. The method of claim 1,
A cartridge assembly for blasting for rock crushing, characterized in that a packing ring for retaining airtightness is fitted to the connection protrusion of the cartridge cover. The method according to claim 1 or 8,
An end portion of the cartridge cover in which the connection screw groove is formed is a separate coupling member screwed to the end portion of the cartridge cover.
The coupling member has the connection screw groove is formed therein, the end of the connection screw groove is a closed end is formed,
Periphery of the finish portion is a blast cartridge assembly for rock fracture, characterized in that the cutting line is formed to be easily removed by external force.

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