KR101934191B1 - Separable electronic ignitor apparatus - Google Patents

Abstract

The present invention relates to an electronic detonator, comprising: a chemical unit having a built-in chemical product; an electronic unit for igniting the chemical product; and a fastening unit for fastening the electronic unit and the chemical unit, To the detachable electronic detonator.

Description

[0001] SEPARABLE ELECTRONIC IGNITOR APPARATUS [0002]

The present invention relates to an electronic detonator for separating an electronic unit and a chemical unit of an electronic detonator into a fastening unit (transverse bulkhead) in an ignition or ignition test in a lab to prevent the electronic unit of the electronic detonator after being ignited, ≪ / RTI >

In the conventional electronic detonator, since the electronic part and the workpiece are connected without a barrier, the electronic part of the electronic detonator is damaged because the explosion is transmitted to the electronic part during ignition or ignition. In addition, since the electronic parts are damaged by the explosion, it is difficult to analyze the electronic parts of the electronic detonator after ignition or ignition, and it is impossible to recycle.

In order to solve the above-mentioned problems, it is intended to apply a structure in which the electronic part and the burner are separated from each other so that the effect of explosion of the explosion device and the explosion of the chemical product on ignition is not transmitted to the electronic part.

Also, we want to analyze the electronic parts that are not damaged due to the separation structure even after ignition, and provide a structure that can be recycled.

The present invention relates to an electronic detonator, comprising: a chemical unit with a built-in product; A cable connected to a first electronic subassembly having one side connected to a power signal terminal to which power and loading signals are input and a second electronic subassembly connected to an awake signal terminal having the other side inputting an ignition signal and an ignition signal; An electronic unit for igniting the chemical product by the ignition signal and the ignition signal; A fastening unit for fastening the electronic unit and the chemical unit so as to be spaced apart from each other; Wherein the fastening unit comprises: a transverse bulkhead formed in a transverse direction so as to partition the internal space of the housing of the chemical unit; A chemical unit flange protruding in a circumferential direction from a lower end of the housing of the chemical unit; An electronic unit flange fastened to the chemical unit flange in such a shape as to cover an upper end of the housing of the electronic unit, and spaced apart by an upper surface and a lower surface of the transverse bulkhead; A chemical unit connector fixed to the transverse bulkhead so as to contact the chemical product; An electronic unit connector fixed to the electronic unit flange in the spacing space and bolted to the chemical unit connector, the rear end of the electronic unit connector contacting one side of the cable and a part of the cable excluding the other side of the cable; Wherein the detonator is a detachable electronic detonator.

Since the electronic unit and the chemical unit are fastened and separated by the fastening unit, the effect of ignition or ignition on the electronic unit due to ignition or ignition of the chemical product is weak so that damage to the electronic unit after ignition of the chemical product or ignition can be prevented.

In addition, it is easy to analyze and recycle the electronic unit (electronic subassembly) after the performance test of the electromagnetic detonator Lab, the ignition of the chemical product, or the ignition.

1 is a cross-sectional view of a detachable electronic detonator according to the present invention.
Fig. 2 is a cross-sectional perspective view showing the electronic unit and the chemical unit of Fig. 1 separated. Fig.
3 is an exploded perspective view of a detachable electronic detonator according to the present invention.
4 is a cross-sectional view of a conventional electronic detonator.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that the same components are denoted by the same reference numerals in the drawings. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

An electronic detonator according to the present invention includes a chemical unit (200) having a chemical product (230) embedded therein, an electronic unit (100) for igniting the chemical product, and a fastening unit for fastening the electronic unit and the chemical unit The unit and the electronic unit are separated and fastened by the fastening unit.

FIG. 1 is a cross-sectional view of a separate type electromagnetic detonator according to the present invention, FIG. 2 is a cross-sectional perspective view in which FIG. 1 is divided into an electronic unit and a chemical unit, and FIG. 3 is an exploded perspective view of the detachable electromagnetic detonator according to the present invention The configuration and the form of the present invention can be easily understood.

The fastening unit includes a transverse bulkhead 240 formed in a transverse direction to partition the internal space of the housing 210 of the chemical unit, a chemical unit flange 250 protruding in the circumferential direction from the lower end of the housing of the chemical unit, , An electronic unit flange (170) to be coupled with the chemical unit flange in a shape covering the upper end of the housing of the electronic unit, a chemical unit connector (220) fixed to the transverse bulkhead, And an electronic unit connector 150 coupled to the electronic unit connector 150. The electronic unit connector and the chemical unit connector are fastened to each other in the spacing space by the upper surface of the electronic unit flange and the lower surface of the transverse bulkhead .

The transverse direction refers to a direction perpendicular to the axial direction of the detachable electromagnetic detonator and the transverse partition 240 is horizontally spaced from the electronic unit flange 170 and the chemical unit flange 250.

The electronic unit 100 includes a cable having one side connected to the first electronic subassembly 130a and the other side connected to the second electronic subassembly 130b, And the second electronic subassembly is connected to the awake signal terminal 120 to which an ignition and ignition signal is input.

The rear end of the electronic unit connector 150 is in contact with one side of the cable 140 and a part of the cable except for the other side of the cable and the rear end of the chemical unit connector 220 is housed in the housing of the chemical unit And contacts the chemical article 230.

The electronic unit flange 170 and the chemical unit flange 250 are bolted together.

4 is a cross-sectional view of a conventional electronic detonator. As can be seen from comparison between FIG. 1 and FIG. 4, the most significant difference between the conventional electronic detonator and the detachable electronic detonator according to the present invention is the connection structure between the refractory and the electronic part, and the electronic subassembly and the chemical product.

First, in the case of the fastening structure and the fastening structure of the electronic part, in the present invention, the electronic unit 100 and the chemical unit 200 are separated into separate housings and the fastening unit is interposed therebetween to secure the spacing space . The electronic unit 100 and the chemical unit 200 are connected by fastening the chemical unit flange 250 and the electronic unit flange 150 with the bolts 300. In addition, Unit (a spacing space) to prevent damage to the electronic unit.

Next, in the case of the connection structure between the workpiece and the electronic subassembly, a conventional electronic detonator is a method of directly connecting the electronic subassembly 130 and the workpiece 230 to the cable 140, The electronic part assembly 130 is brought into contact with the electronic unit connector 150 through the cable 140 and the chemical unit connector 220 And the electronic unit connector 150 are connected to each other so that the mechanical part 230 and the electronic subassembly 130 are indirectly connected to each other.

As a result, the fastening unit electrically and mechanically connects the electronic unit 100 and the chemical unit 200.

The method includes the steps of: (S10) inputting a power and a charging signal to the power source signal terminal 110; (S20) loading the electronic subassembly 130; A step S30 of inputting an ignition signal and an ignition signal to the ignition signal terminal 120, a step S40 of igniting the chemical article 230, a step S50 of confirming a test result after the ignition is completed, Analyzing the subassembly 130 (S60), and the like.

When the power source is inputted in S10, the electronic subassembly 130 is in an operable state. When the charging signal is inputted, the capacitor in the electronic subassembly is charged with a voltage.

In S20, the charged state of the capacitor is maintained, and in S30, an ignition signal is inputted, and the voltage of the capacitor is transmitted to the workpiece 230 through the cable 140 and the connectors 150 and 220 .

In step S40, the chemical product 230 is ignited by the voltage received in step S30. At this time, the explosion impact is not transmitted to the electronic unit by the fastening unit (the spacing space).

In step S50, the external appearance of the chemical unit 200 is checked and the pressure value measured at the output terminal is checked in the step of confirming the test result of the detachable electromagnetic detonating device having completed the step S40.

In step S60, the analysis of the electronic subassembly 130 is performed. The analysis standard is based on whether the voltage in the capacitor in the electronic subassembly is normally charged when the charging signal is input, the voltage of the capacitor when the ignition signal is input, As well as whether it has been delivered normally. In S60, the electronic unit 100 includes the operation of separating the electronic unit 100 from the chemical unit 200, and the separated electronic unit is connected to a new chemical unit and reused for another explosion test.

It will be apparent to those skilled in the art that various modifications and equivalent arrangements may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

100: Electronic unit
200: Chemical unit
300: fastening bolt
110: Power signal terminal
120: Aperture signal terminal
130: electronic subassembly
130a: first electronic subassembly
130b: second electronic subassembly
140: Cable
150: Electronic unit connector
160: Electronic unit housing
170: Electronic unit flange
210: housing of chemical unit
220: Chemical unit connector
230: Chemistry
240: transverse bulkhead
250: Chemical processing unit flange

Claims (7)

In an electronic detonator,
A chemical unit with a built-in chemical product;
A cable connected to a first electronic subassembly having one side connected to a power signal terminal to which power and loading signals are input and a second electronic subassembly connected to an awake signal terminal having the other side inputting an ignition signal and an ignition signal; / RTI >
An electronic unit for igniting the chemical product by the ignition signal and the ignition signal;
A fastening unit for fastening the electronic unit and the chemical unit so as to be spaced apart from each other; / RTI >
The fastening unit includes:
A transverse bulkhead formed in a transverse direction so as to partition the internal space of the housing of the chemical unit;
A chemical unit flange protruding in a circumferential direction from a lower end of the housing of the chemical unit;
An electronic unit flange fastened to the chemical unit flange in such a shape as to cover an upper end of the housing of the electronic unit, and spaced apart by an upper surface and a lower surface of the transverse bulkhead;
A chemical unit connector fixed to the transverse bulkhead so as to contact the chemical product;
An electronic unit connector fixed to the electronic unit flange in the spacing space and bolted to the chemical unit connector, the rear end of the electronic unit connector contacting one side of the cable and a part of the cable excluding the other side of the cable; Wherein the detonation mechanism comprises a plurality of detonators. delete delete delete delete delete delete

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