CN218764913U - Electronic detonator multi-path serial port three-code binding system - Google Patents

Abstract

The utility model discloses a system is bound to three yards of electron detonator multichannel serial ports, system and the computer communication of a 3 way USB mouths are bound to three yards of electron detonator multichannel serial ports, and the electron detonator anchor clamps are connected to the computer, places 20 electricity generation electronic detonator on the electron detonator anchor clamps, and three yards are bound the system and are supported 20 electricity generation electronic detonator and write in three yards and bind, and the output that the system was bound to three yards is connected the bar code printer that is used for printing electron detonator bar code, box bar code, case bar code through the computer. Compare current three yards and bind the system and can not support the electron detonator multichannel simultaneously and write three yards and bind, production efficiency is low, the utility model discloses can once support the three yards of 20 electricity generation electron detonators simultaneously and bind, the production is written a yard efficiently.

Description

Electronic detonator multi-path serial port three-code binding system

Technical Field

The utility model relates to an electron detonator technical field, in particular to system is bound to three yards of electron detonator multichannel serial ports.

Background

The electronic detonator is a novel detonator which adopts a digital control chip to accurately control the detonation process, and has the advantages that: the technology is mature, the performance is better, and the control is easy. The accurate multi-section type time delay setting provides feasible conditions for large-scale accurate blasting, and the three-code binding technology enables the information to be processed in a closed loop mode in the specific using process of the electronic detonator, so that the safe supervision is intelligent and efficient.

The electronic detonator needs to be bound by three codes in the production process, namely, the coded information and the detonation password are solidified for the electronic detonator, and the coded information is printed on the electronic detonator shell through a laser machine. However, the existing three-code binding system is low in efficiency, is easy to generate the conditions of code error, code leakage and the like, is difficult to adapt to the production lines of various electronic detonator production plants, and is narrow in adaptability range.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a system is bound to three yards of electron detonator multichannel serial ports can promote the electron detonator and write into three yards in the production process and bind work efficiency.

In order to realize the above-mentioned purpose, the utility model provides a system is bound to three yards of electron detonator multichannel serial ports, system and the computer communication of a support 3 way USB mouths are bound to three yards of electron detonator multichannel serial ports, the electron detonator anchor clamps are connected to the computer, place 20 electricity generation electron detonators on the electron detonator anchor clamps, three yards are bound the system and are supported 20 electricity generation electron detonators and write in three yards and bind, the output that the system was bound to three yards passes through the computer connects the bar code printer that is used for printing electron detonator bar code, box bar code, case bar code.

The detonator clamp main body uses 3 7 paths of USB Hub chips to expand 3 paths of USB ports on the computer host to 21 paths, wherein 20 paths of USB ports are used for writing and reading three-code data of 20 generated electronic detonators, and 1 path of USB ports is used for controlling an automatic pressing control module of the electronic detonator clamp.

The three-code binding system is provided with a three-code storage library and is used for storing three-code information bound by the 20-generation electronic detonators.

The three-code binding system is further connected with an electronic detonator data server.

Wherein, the computer host is also connected with a data platform.

The utility model discloses system is bound to three yards of electron detonator multichannel serial ports that technical scheme provided, system and the computer communication of a support 3 way USB mouths are bound to three yards of electron detonator multichannel serial ports, the electron detonator anchor clamps are connected to the computer, place 20 electricity generation electron detonators on the electron detonator anchor clamps, three yards are bound the system and are supported 20 electricity generation electron detonators and write in three yards and bind, the output that system was bound to three yards passes through the computer connects the bar code printer that is used for printing electron detonator bar code, box bar code, case bar code. Compared with the prior three-code binding system which can not simultaneously support the multi-path writing three-code binding of the electronic detonator and has low production efficiency, the utility model can simultaneously support the three-code binding of the 20-generation electronic detonator at one time, has high production code writing efficiency, comprises a set of code writing system which can write 20-generation electronic detonators at one time, and is provided with a three-code storage library; the full-automatic three-code binding machine can realize the full-automatic three-code binding of the 20-generation electronic detonators in real time, the three-code information is stored, uploaded and managed, the binding efficiency is high, the full-automatic 20-generation detonators are bound by one key at one time, and the mistakes and the omissions are avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is the utility model discloses the structural schematic diagram of system is bound to three yards of electron detonator multichannel serial ports.

The reference numbers illustrate:

the method comprises the following steps of 1-electronic detonator clamp, 2-bar code printer, 3-three-code binding system, 4-electronic detonator UID code, 5-detonation password, 6-detonator shell code, 7-computer host, 8-data platform and 9-electronic detonator data server.

The realization, the functional characteristics and the advantages of the utility model are further explained by combining the embodiment and referring to the attached drawings.

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 efforts belong to the protection scope of the present invention.

In order to solve the problem that the electronic detonator is written into three codes in the production process and bind the work efficiency, the utility model discloses a system for once supporting 20 electronic detonators to write into three codes simultaneously and bind. The system has extremely low requirement on equipment, and only needs one networking computer supporting 3 paths of USB ports.

As shown in fig. 1, the utility model provides a system 3 is bound to three yards of electron detonator multichannel serial ports, system 3 and the computer 7 communication of a 3 way USB mouths are bound to three yards of electron detonator multichannel serial ports, electronic detonator anchor clamps 1 are connected to computer 7, place 20 electronic detonator on the electronic detonator anchor clamps 1, three yards are bound system 3 and are supported 20 electronic detonator and write in three yards and bind, three yards are bound system 3's output and are passed through computer 7 connects the bar code printer 2 that is used for printing electronic detonator bar code, box bar code, case bar code.

The detonator clamp main body uses 3 USB Hub chips with 7 paths to expand 3 paths of USB ports on the computer host 7 to 21 paths, wherein the 20 paths of USB ports are used for writing and reading three-code data of 20 generating electronic detonators, and the 1 path of USB ports is used for controlling an automatic pressing control module of the electronic detonator clamp 1.

The three-code binding system 3 is provided with a three-code storage library and is used for storing three-code information bound by the 20-generation electronic detonators.

The three-code binding system 3 is also connected with an electronic detonator data server 9.

Wherein, the computer host 7 is also connected with a data platform 8.

The utility model discloses system 3 is bound to three yards of electron detonator multichannel serial ports that technical scheme provided, system 3 and a computer 7 communication that supports 3 way USB mouths are bound to three yards of electron detonator multichannel serial ports, computer 7 connects electron detonator anchor clamps 1, place 20 electronic detonator on the electron detonator anchor clamps 1, three yards are bound system 3 and are supported 20 electronic detonator and write in three yards and bind, three yards are bound system 3's output and are passed through computer 7 connects the bar code printer 2 that is used for printing electron detonator bar code, box bar code, case bar code. Compared with the prior three-code binding system 3 which can not simultaneously support the multi-path writing and binding of the electronic detonator, the utility model has low production efficiency, can simultaneously support the three-code binding of the 20-generation electronic detonator at one time, has high production and code writing efficiency, and comprises a set of code writing system which can write the 20-generation electronic detonator at one time, and the code writing system is provided with a three-code storage library; the full-automatic three-code binding machine can realize the full-automatic three-code binding of the 20-generation electronic detonators in real time, the three-code information is stored, uploaded and managed, the binding efficiency is high, the full-automatic 20-generation detonators are bound by one key at one time, and the mistakes and the omissions are avoided.

The following technical scheme of the utility model is elaborated in detail:

the utility model provides an electronic detonator multi-path serial port three-code binding system 3, which comprises a set of code writing system which can write 20 pieces of code at one time, wherein the code writing system is provided with a three-code storage library; the full-automatic three-code binding machine can realize real-time full-automatic three-code binding, three-code information storage, uploading and management of 20-generation electronic detonators at one time, is high in binding efficiency, and can automatically stop mistakes and omissions in the whole process of binding the 20-generation detonators at one time by one key.

As shown in fig. 1, the main body of the electronic detonator clamp 1 uses 3 USB Hub chips with 7 channels to expand 3 USB ports on the host computer 7 to 21 USB ports. Wherein, 20 USB ports are used for writing and reading three-code data of 20 blasting caps, and 1 USB port is used for controlling the automatic pressing control module of the clamp.

The output end of the three-code binding system 3 is connected with a bar code printer 2 for printing bar codes of the electronic detonator, the box bar codes and the box bar codes; the electronic detonator three-code binding system 3 automatically generates three codes of electronic detonator bar code, box bar code and box bar code information according to different manufacturers; the 20-detonator module is placed into a detonator clamp, and the electronic detonator injection code of the electronic delay ignition device in the 20-detonator can be automatically verified at one time;

the three-code binding system 3 can be provided with an electronic detonator UID code 4, an electronic detonator initiation password 5 and an electronic detonator shell code 6, wherein:

the UID code 4 of the electronic detonator is a detonator identity number and comprises company information, production factory information, production date information and the like, and all the information of the detonator can be inquired, so that the manufacturer can know which company produces the electronic detonator and the electronic detonator identity number is the electronic detonator identity number.

The electronic detonator initiation code 5 is a code that must be verified before the detonator is initiated. The electronic detonator shell code 6 is a code used by a detonator factory-distinguished detonator, and is applied to synchronization of detonation verification and a national management center.

The utility model discloses only need a networking computer host 7 can realize once only that 20 generate electricity electron detonator code writing work. In addition, the three-code binding system 3 is also connected with a server for storing and recording three-code data, and the three-code repository is connected with a national/provincial management center. The data parameters comprise bridge wire resistance, AB voltage, AB current, capacitance leakage, bridge wire resistance, delay time, UID code, tube shell code and detonation code of the electronic detonator.

The utility model discloses system 3 theory of operation is bound to three yards of electron detonator multichannel serial ports as follows:

1. placing the 20-generation electronic detonator module into a detonator clamp, and automatically pressing the clamp;

2. the multi-path serial port three-code binding system 3 is operated, the system can automatically identify 20 the electronic detonator module, the electronic detonator finished product detector checks and compares the written data parameters and physical parameters such as current, voltage, resistance and the like, and different detonator UID codes 4, detonator shell codes 6 and detonation passwords 5 are set according to different manufacturers;

3. the system reads and writes three-code information of 20-generation electronic detonators by one key, checks the information, communicates the data with a background server, and connects a three-code storage library with a national/provincial management center;

4. after the codes are written, automatically generating an electronic detonator bar code in three codes to be pasted on a detonator shell, pasting a box bar code on a detonator storage box, pasting a box bar code on the detonator storage box, and packing 100 electronic detonators into one box;

5. the printer receives the three-code information and prints the three codes. The three-code repository binds the three codes and information such as various parameters (tube shell codes, UID codes, detonation passwords, voltage, current, resistance) and production time of the electronic detonator one by one, and synchronizes the bound data to a national/provincial management center, so that each product can be traced.

Compared with the prior art, the utility model has the advantages of as follows:

1) The writing of the 20-generation electronic detonator into the three-code binding can be simultaneously supported at one time, the code writing speed is high, and the production efficiency of the electronic detonator is greatly improved;

2) Only one networking computer is needed, and the requirement on other auxiliary equipment is extremely low;

3) The three-code data can synchronize the server in real time, and production, maintenance and management are facilitated.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (5)

1. The electronic detonator multi-path serial port three-code binding system is characterized by being communicated with a computer host supporting a 3-path USB port, the computer host is connected with an electronic detonator clamp, 20 electronic detonators are placed on the electronic detonator clamp, the three-code binding system supports the 20 electronic detonators to write in three codes for binding, and the output end of the three-code binding system is connected with a bar code printer used for printing electronic detonator bar codes, box bar codes and box bar codes through the computer host.

2. The electronic detonator multi-path serial port three-code binding system as claimed in claim 1, wherein 3 paths of USB Hub chips on the computer host are used by the detonator clamp main body to expand 3 paths of USB ports to 21 paths, wherein 20 paths of USB ports are used for writing and reading three-code data of 20 power generation electronic detonators, and 1 path of USB ports is used for controlling an automatic pressing control module of the electronic detonator clamp.

3. The electronic detonator multi-path serial port three-code binding system as claimed in claim 1, wherein the three-code binding system is provided with a three-code storage library for storing three-code information bound by the 20-generation electronic detonators.

4. The electronic detonator multi-path serial port three-code binding system as claimed in claim 1, wherein the three-code binding system is further connected with an electronic detonator data server.

5. The electronic detonator multi-path serial port three-code binding system as claimed in claim 1, wherein the computer host is further connected with a data platform.

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