CN209745134U - mixed priming circuit system - Google Patents

Abstract

the utility model discloses a mix priming network system, including a plurality of handheld machines of big gun hole and digital electronic detonator who digs subaerial, handheld machine of digital electronic detonator links to each other with the digital electronic detonator that corresponds to be located the big gun hole side through the control line, and the top of big gun hole is filled to filling mutually level with ground, and high accuracy detonator is placed to the bottom of big gun hole, and high accuracy detonator meets with digital electronic detonator. The delay high-precision nonel detonator is loaded into a blast hole, a digital electronic detonator is connected to the orifice of each blast hole, each row of digital electronic detonators are bound and connected, blast hole coordinate information is obtained through blasting design software, communication is carried out between each row of digital electronic detonators and each row of digital electronic detonators through a digital electronic detonator handheld machine, the reliability of a network is guaranteed, communication inspection is carried out before detonation, all information is returned, no error exists, detonation is carried out, communication inspection is carried out again when errors exist, until all communication inspection is completed, and the networking time is greatly shortened.

Description

mixed priming circuit system

Technical Field

The utility model relates to a priming network system, in particular to mix priming network system.

Background

At present, an electric detonating network, a non-electric detonating network and a digital electronic detonator detonating network are mainly used in the field of engineering blasting, the electric detonating network has the advantages of being detectable and the like, but the electric detonator has poor delay precision, is influenced by a plurality of external factors, and has poor safety. The non-electric priming circuit has high reliability but is not detectable, the digital electronic detonator has good safety but has networking difficulty, and the networking time is long because the in-hole detonator is difficult to detect due to the magnetotelluric interference.

SUMMERY OF THE UTILITY MODEL

an object of the utility model is to provide a mix detonating network system has the reliability that has both guaranteed the network like this, reduces the network deployment time greatly, the advantage of save time cost to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a mixed priming network system comprises a plurality of blast holes cut on the ground and a digital electronic detonator hand-held machine, wherein the digital electronic detonator hand-held machine is connected with a digital electronic detonator correspondingly positioned beside the blast holes through a control line, the top of each blast hole is filled to a filling level with the ground, a high-precision detonating tube detonator is placed at the bottom of each blast hole, and the high-precision detonating tube detonator is connected with the digital electronic detonator.

Preferably, a delay module, a numbering module and a wireless transmitting and receiving module are arranged in the high-precision detonator, a handheld processor module is arranged in the digital electronic detonator handset, and a detonator processing module is arranged in the digital electronic detonator.

The delay module is used for controlling delay interval time information of the high-precision detonator with the detonating tube;

The numbering module is used for numbering each blast hole and numbering coordinate information of the position;

The wireless transmitting and receiving module is used for receiving the signal from the detonator processing module and transmitting the signals of the delay module and the numbering module;

Preferably, the output ends of the delay module and the numbering module are connected with the wireless transmitting and receiving module, the input end of the delay module is connected with the wireless transmitting and receiving module, the wireless transmitting and receiving module is connected with the detonator processing module, one end of the detonator processing module is connected with the communication module, the other end of the communication module is connected with the handheld processor module, and the output end of the handheld processor module is connected with the signal positioning module.

The handheld processor module is used for communicating the detonator processing module, carrying out comparison communication according to preset related coordinate information and writing millisecond delay interval time into the high-precision nonel detonators one by one;

The communication module is used for transmitting data by utilizing wired and wireless or by using a CDPD, GSM and CDMA public network information platform;

the signal positioning module is used for positioning the position of a blast hole and checking a delay module of the high-precision detonating tube detonator to form a network.

Compared with the prior art, the beneficial effects of the utility model are that:

1. according to the mixed priming network system, high-precision detonating tube detonators with the time delay of 500ms are loaded into blast holes, a digital electronic detonator is connected to the orifice of each blast hole, each row of digital electronic detonators are bound and connected, blast hole coordinate information is communicated by blasting design software, and the reliability of a network is guaranteed.

2. This mix detonating network system, the communication is compared according to presetting relevant coordinate information to the serial number module, the time delay module is write in high accuracy detonator one by one with millisecond delay interval time, communication inspection before detonating, all return information, no error, carry out detonating, there is the error to need carry out communication inspection again, until all communication inspection are accomplished, so both satisfied the needs that relevant blasting engineering delay interval set for, reduce the network deployment time greatly, the advantage of two kinds of network connection of non-electric detonator and digital electron detonator has been synthesized in the network connection.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

Fig. 2 is a module connection diagram of the present invention.

In the figure: the system comprises a blast hole 1, a 11-pack, a 12-high-precision nonel detonator, a 121-time delay module, a 122 numbering module, a 123 wireless transmitting and receiving module, a 2-digital electronic detonator handset, a 21 handheld processor module, a 211 signal positioning module, a 3-digital electronic detonator, a 31-detonator processing module and a 4-communication module.

Detailed Description

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, a hybrid priming circuit system includes a plurality of blastholes 1 drilled on the ground and a digital electronic detonator handset 2, the digital electronic detonator handset 2 is connected with a digital electronic detonator 3 correspondingly located beside the blastholes 1 through a control line, the top of the blastholes 1 is filled to a filling 11 level with the ground, high-precision detonating tube detonators 12 are placed at the bottom of the blastholes 1, and the high-precision detonating tube detonators 12 are connected with the digital electronic detonator 3.

A delay module 121, a numbering module 122 and a wireless transmitting and receiving module 123 are arranged in the high-precision detonator 12, and the delay module 121 is used for controlling delay interval time information of the high-precision detonator 12; the numbering module 122 is used for numbering each blast hole 1 and numbering coordinate information of the position; the wireless transmitting and receiving module 123 is used for receiving the signal from the detonator processing module 31 and transmitting the signal of the delay module 121 and the numbering module 122, a handheld processor module 21 is arranged in the digital electronic detonator handset 2, and the detonator processing module 31 is arranged in the digital electronic detonator 3.

Referring to fig. 2, the output ends of the delay module 121 and the numbering module 122 are connected to the wireless transmitting and receiving module 123, the input end of the delay module 121 is connected to the wireless transmitting and receiving module 123, the wireless transmitting and receiving module 123 is connected to the detonator processing module 31, one end of the detonator processing module 31 is connected to the communication module 4, the other end of the communication module 4 is connected to the hand-held processor module 21, the communication module 4 is used for transmitting data by using a wired and wireless or by using a CDPD, GSM, CDMA public network information platform, the hand-held processor module 21 is used for communicating the detonator processing module 31 and performing comparison communication according to preset related coordinate information, millisecond delay intervals are written into the high-precision detonator 12 one by one, the output end of the hand-held processor module 21 is connected to the signal positioning module 211, and the signal positioning module 211 is used for positioning the position of the blast hole 1, and a delay module 121 for inspecting the high-precision detonator 12 to form a network.

The network connection integrates the advantages of two network connections of a non-electric detonator and a digital electronic detonator, and the characteristics of high reliability and high delay precision of the high-precision detonator 12 are utilized to be used as a detonating part in a blast hole, and the advantage of arbitrarily setting the safety of the digital electronic detonator 3 is used as a ground relay detonator, so that the reliability of the network is ensured, the requirement of setting the delay interval of related blasting engineering is met, the networking time is greatly shortened, and the time cost is saved.

The working principle is as follows: high-precision detonating tube detonators 12 with the time delay of 500ms are loaded into the blast holes 1, a digital electronic detonator 3 is connected with the orifice of each blast hole 1, each row of digital electronic detonators 3 are bound and connected, the coordinate information of the blast holes 2, the serial number of each hole and the time delay interval information are led into a digital electronic detonator handset 2 by blasting design software, the digital electronic detonator handset 2 is used for communicating with each digital electronic detonator 3, the numbering module 122 carries out comparison communication according to preset relevant coordinate information, the delay module 121 writes millisecond delay interval time into the high-precision nonel detonator 12 one by one, carries out communication inspection before detonation, returns information completely, has no error, carries out detonation, needs to carry out communication inspection again when having errors until all communication inspections are finished, high-precision time delay can be realized, and blasting vibration can be controlled by changing millisecond time delay intervals.

to sum up, the mixed priming network system provided by the utility model, the high precision detonating tube detonator 12 with a delay of 500ms is loaded into the blast hole 1, a digital electronic detonator 3 is connected to the orifice of each blast hole 1, each row of digital electronic detonators 3 is bound and connected, blasting design software is used to carry out the coordinate information of the blast hole 2, a digital electronic detonator handset 2 is used to communicate with each digital electronic detonator 3, a numbering module 122 carries out comparison communication according to the preset relevant coordinate information, a delay module 121 writes millisecond delay interval time into the high precision detonating tube detonator 12 one by one, communication inspection before priming is carried out, all return information is returned, no error is generated, the priming is carried out, communication inspection is carried out again when errors exist until all communication inspection is completed, thus not only ensuring the reliability of the network, but also meeting the requirement of related blasting engineering delay interval setting, the networking time is greatly shortened, and the time cost is saved.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (3)

1. A mixed priming network system comprises a plurality of blast holes (1) cut on the ground and a digital electronic detonator handset (2), and is characterized in that: the digital electronic detonator hand-held machine (2) is connected with a digital electronic detonator (3) correspondingly positioned beside the blast hole (1) through a control line, the top of the blast hole (1) is filled to a pad (11) which is level to the ground, a high-precision detonating tube detonator (12) is placed at the bottom of the blast hole (1), and the high-precision detonating tube detonator (12) is connected with the digital electronic detonator (3).

2. The hybrid detonating network system of claim 1, wherein: a delay module (121), a numbering module (122) and a wireless transmitting and receiving module (123) are arranged in the high-precision nonel detonator (12), a handheld processor module (21) is arranged in the digital electronic detonator handset (2), and a detonator processing module (31) is arranged in the digital electronic detonator (3);

The delay module (121) is used for controlling delay interval time information of the high-precision detonating tube detonator (12);

The numbering module (122) is used for numbering each blast hole (1) and numbering coordinate information of the position;

The wireless transmitting and receiving module (123) is used for receiving signals from the detonator processing module (31) and transmitting signals of the delay module (121) and the numbering module (122).

3. The hybrid detonating network system of claim 2, wherein: the output ends of the delay module (121) and the numbering module (122) are connected with the wireless transmitting and receiving module (123), the input end of the delay module (121) is connected with the wireless transmitting and receiving module (123), the wireless transmitting and receiving module (123) is connected with the detonator processing module (31), one end of the detonator processing module (31) is connected with the communication module (4), the other end of the communication module (4) is connected with the handheld processor module (21), and the output end of the handheld processor module (21) is connected with the signal positioning module (211);

The handheld processor module (21) is used for communicating the detonator processing module (31), carrying out comparison communication according to preset relevant coordinate information and writing millisecond delay interval time into the high-precision detonating tube detonators (12) one by one;

the communication module (4) is used for transmitting data by utilizing wired and wireless or by using a CDPD, GSM and CDMA public network information platform;

the signal positioning module (211) is used for positioning the position of the blast hole (1) and checking the delay module (121) of the high-precision detonator (12) to form a network.