CN217363397U - PCB single board and jointed board structure for producing electronic detonator control module - Google Patents

Abstract

The utility model relates to the technical field of civil explosive initiating explosive device manufacturing, in particular to a PCB single board for producing an electronic detonator control module, which comprises a connecting frame and a module processing part; the side-connected frame is of a rectangular frame structure formed by two supporting vertical beams, a first supporting cross beam and a second supporting cross beam, and one ends of the two supporting vertical beams, which are close to the second supporting cross beam, are provided with pre-breaking blocks; the module processing part is provided with a plurality of PCB subboards used for processing the electronic detonator control module at intervals, and the PCB subboards and the first supporting beam and the second supporting beam are both provided with a first pre-breaking structure. Therefore, the PCB sub-boards with the required structures are arranged in the PCB single board, the circuit structures are arranged on the PCB sub-boards in batches, and the components required for mounting are mounted, so that batch production of the electronic detonator control modules is realized, and the production efficiency is high.

Description

PCB single board and jointed board structure for producing electronic detonator control module

Technical Field

The utility model relates to a people explodes initiating explosive device and makes technical field, especially relates to a PCB veneer and makeup structure for producing electronic detonator control module.

Background

Electronic detonator control module comprises ignition element, foot line spare and control circuit board, in process of production, confirm and made the control circuit board structure of corresponding structure according to the size and the type of each components and parts after, again with each components and parts subsides dress on the circuit board, because the control circuit board volume is less, single production mode convenience is poor, and inefficiency, consequently, need for a PCB plate structure now, adapt to control circuit board's batch production to improve control circuit board's production efficiency.

Disclosure of Invention

The embodiment of the utility model provides a pair of a PCB veneer and makeup structure for producing electronic detonator control module for solve the problem that above-mentioned prior art mentioned.

According to a first aspect of an embodiment of the present invention, there is provided a PCB single board for manufacturing an electronic detonator control module, the PCB single board including a linking frame and a module processing part; the side-connected frame is of a rectangular frame structure formed by two supporting vertical beams, a first supporting cross beam and a second supporting cross beam, and pre-breaking blocks are arranged at one ends of the two supporting vertical beams, which are close to the second supporting cross beam; the module processing part is located in the side frame, a plurality of PCB daughter boards used for processing the electronic detonator control module are arranged at intervals of the module processing part, and first pre-breaking structures are arranged between the PCB daughter boards and the first supporting cross beams and between the PCB daughter boards and the second supporting cross beams. From this, through the PCB daughter board that sets up a plurality of required structures in the PCB veneer, set up circuit structure and paste required components and parts to a plurality of PCB daughter boards in batches, secondly, after the one end that is located second supporting beam pastes the ignition device, through breaking off the first structure of breaking off with the fingers and thumb between piece and second supporting beam and the PCB daughter board in advance, come to remove the second supporting beam and expose the PCB daughter board and set up the part of ignition device, thereby prevent to dip in the medicine for each PCB daughter board in batches, support the vertical beam, the second supporting beam is to dipping in the interference of medicine operation process, the production finishes, each independent electron detonator control module is obtained to the first structure of breaking off with the fingers and thumb between first supporting beam and the PCB daughter board, thereby realize the batch production to electron detonator control module, high production efficiency.

Optionally, the two vertical supporting beams and the first supporting beam are provided with positioning holes for positioning, and related production equipment is favorable for fixing the PCB single board when circuits, components and parts are arranged on the PCB daughter boards in batches or other production operations are carried out.

Optionally, second pre-breaking structures are arranged between one end of the pre-breaking block and the second supporting beam and between the other end of the supporting vertical beam and the first supporting beam, and the second pre-breaking structures and the first pre-breaking structures are located on the same horizontal plane. From this, can break off each PCB daughter board with first supporting beam or second supporting beam according to the production demand off with the fingers and thumb, thereby it comes to support fixedly each PCB daughter board to tightly keep a supporting beam, sometimes according to concrete production technology demand, it just can remove second supporting beam 222 earlier and keep taking the support of pre-breaking piece 211 to erect roof beam 21 to set up the second structure of breaking in advance between pre-breaking piece one end and second supporting beam, when treating to dip in the medicine, just remove the pre-breaking piece 211 on the support perpendicular roof beam 21, adapt to constantly changeable production technology flow, the production mode is nimble changeable, and is efficient.

Optionally, the pre-breaking block other end is for setting up support the third pre-breaking structure on the perpendicular roof beam, after the PCB daughter board is located the one end subsides of second supporting beam and pastes the ignition device, remove the second supporting beam back through the second pre-breaking structure, the rethread breaks the pre-breaking block off with the fingers and thumb and exposes the PCB daughter board and sets up the part of ignition device, prevents to dip in the medicine for each PCB daughter board in batches, supports and erects the roof beam to dipping in the interference of medicine operation process.

Optionally, the third pre-breaking structure is formed by a plurality of through holes which are adjacently arranged in a row on the supporting vertical beam, and the pre-breaking block is smaller, so that the third pre-breaking structure formed by the through holes is more labor-saving when the pre-breaking block needs to be broken.

The foundation the utility model discloses the second aspect of the embodiment provides a PCB makeup structure for producing electronic detonator control module, PCB makeup structure is for constituting integrative mosaic structure, each by a plurality of PCB veneers concatenation department between the PCB veneer is provided with the fourth structure of prejudging. Therefore, a plurality of PCB single boards can be divided through the fourth pre-breaking structure on one PCB according to the actual production quantity, and each PCB single board is provided with a plurality of PCB sub-boards according to the requirement, so that the production efficiency of the electronic detonator control circuit board is improved.

The utility model discloses the beneficial effect who implements is: through set up a plurality of PCB daughter boards on a PCB veneer, paste required components and parts to a plurality of PCB daughter boards in batches, and accomplish other relevant production process backs, through breaking off first pre-breaking structure off with the fingers and thumb, obtain independent electron detonator control module in advance disconnected piece etc. still can divide a plurality of PCB veneers through fourth pre-breaking structure on a PCB board, every PCB veneer sets up a plurality of PCB daughter boards according to the demand, thereby realize the batch production to electron detonator control circuit board, and high production efficiency.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic plan structure diagram of a PCB single board for producing an electronic detonator control module according to a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of FIG. 1;

FIG. 3 is a schematic structural view of FIG. 1 with the pre-breaking blocks and the second support beam broken away;

fig. 4 is a schematic plan view of a PCB panel structure for producing an electronic detonator control module according to a second embodiment of the present invention;

FIG. 5 is a schematic perspective view of FIG. 4;

FIG. 6 is a schematic structural view of a PCB panel of FIG. 4;

fig. 7 is a schematic structural view of another PCB panel structure of fig. 4.

In the figure: 0-PCB single plate, 1-module processing part, 11-PCB sub-plate, 2-edge connecting frame, 21-supporting vertical beam, 211-pre-breaking block, 221-first supporting beam, 222-second supporting beam, 3-first pre-breaking structure, 4-second pre-breaking structure, 5-third pre-breaking structure, 51-through hole, 6-first positioning hole, 7-second positioning hole and 8-fourth pre-breaking structure.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Referring to fig. 1-3, a first embodiment of the present invention provides a PCB board 0 for manufacturing an electronic detonator control module, where the PCB board 0 includes a connecting frame 2 and a module processing portion 1. The side frame 2 is a rectangular frame structure formed by two vertical supporting beams 21, a first supporting beam 221 and a second supporting beam 222, and one ends of the two vertical supporting beams 21 close to the second supporting beam 222 are provided with pre-breaking blocks 211. Module processing portion 1 is located even limit frame 2, 1 interval in module processing portion is provided with a plurality of PCB daughter boards 11 that are used for processing electronic detonator control module, module processing portion 1 and two support and are provided with the space between perpendicular roof beam 21, be provided with the space between two PCB daughter boards 11 of both sides and the support perpendicular roof beam 21 promptly, the production of being convenient for is accomplished the back and is peeled off PCB daughter board 11, in this embodiment, the PCB daughter board 11 of both sides and the space of supporting between the perpendicular roof beam 21 equal with the space between each PCB daughter board 11, and all be provided with first pre-breaking structure 3 between PCB daughter board 11 and first supporting beam 221 and the second supporting beam 222. Therefore, the multiple PCB daughter boards 11 with the required structures are arranged in the PCB single board 0, the multiple PCB daughter boards 11 are arranged with circuit structures in batch and required components are mounted, and then after the PCB daughter boards 11 are arranged at one ends of the second supporting beams 222, the first pre-breaking structures 3 between the pre-breaking blocks 211 and the second supporting beams 222 and the PCB daughter boards 11 are broken off (sometimes according to the specific production process requirements, the second supporting beams 222 are removed first, the supporting vertical beams 21 with the pre-breaking blocks 211 are reserved, the pre-breaking blocks 211 on the supporting vertical beams 21 are removed when the medicines are dipped), the second supporting beams 222 are removed, the parts of the PCB daughter boards 11 with the ignition devices are exposed, so that when the medicines are dipped in batch in the various PCB daughter boards 11, the supporting vertical beams 21 and the second supporting beams 222 interfere the medicine dipping operation process, the production is finished, and then the first pre-breaking structures 3 between the first supporting beams 221 and the PCB daughter boards 11 are broken off to obtain various independent electronic detonators to control the respective electronic detonators to control the required components The module realizes the batch production of the electronic detonator control module and has high production efficiency.

Referring to fig. 2, the two supporting vertical beams 21 and the first supporting beam 221 are respectively provided with a positioning hole for positioning, and the PCB single board 0 is advantageously fixed by related production equipment when the PCB daughter board 11 is provided with circuits and components in batch or other production operations are performed. Specifically, the locating hole includes a plurality of first locating holes 6 and two second locating holes 7, first locating hole 6 sets up on supporting vertical beam 21, be provided with two first locating holes 6 on every supporting vertical beam 21, two second locating holes 7 set up the both ends at first supporting beam 221, first locating hole 6 on the supporting vertical beam 21 and second locating hole 7 on the first supporting beam 221 all have the positioning action, in order to do benefit to the production process and set up the circuit on each PCB daughter board 11 of PCB veneer 0, when components and parts or carry out other production operations, fix PCB veneer 0, fix the location.

Further, a second pre-breaking structure 4 is disposed between one end of the pre-breaking block 211 and the second supporting beam 222, and between the other end of each of the two supporting vertical beams 21 (i.e. the end of each of the supporting vertical beams 21 far away from the pre-breaking block 211) and the first supporting beam 221, and the second pre-breaking structure 4 and the first pre-breaking structure 3 are located on the same horizontal plane. From this, can break away from each PCB daughter board 11 with first supporting beam 221 or second supporting beam 222 according to the production demand through first pre-breaking structure 3 and second pre-breaking structure 4, thereby it supports fixedly to closely keep a supporting beam to each PCB daughter board 11, sometimes according to concrete production technology demand, it just can remove second supporting beam 222 and keep the support vertical beam 21 of taking pre-breaking block 211 to set up second pre-breaking structure 4 between pre-breaking block 211 one end and second supporting beam 222, when treating to dip in the medicine, just remove the pre-breaking block 211 on the support vertical beam 21, adapt to constantly changeable production technology flow, the production mode is nimble changeable, high efficiency.

The other end of the pre-breaking block 211 is provided with a third pre-breaking structure 5 arranged on the supporting vertical beam 21, so that the pre-breaking block 211 is obtained by dividing a second pre-breaking structure 4 and the third pre-breaking structure 5 arranged on the supporting vertical beam 21, after the ignition device is mounted at one end of the second supporting beam 222 of the PCB daughter board 11, the second supporting beam 222 is removed through the second pre-breaking structure 4, and then the pre-breaking block 211 is removed to expose the part of the PCB daughter board 11 where the ignition device is arranged (namely, fig. 3 is a schematic structural diagram of the PCB single board 0 in the medicine dipping process, and the ignition device is not shown in the figure), so as to prevent the interference of the supporting vertical beam 21 on the medicine dipping process when the medicine is dipped in batch in each PCB daughter board 11.

The third pre-breaking structure 5 is composed of a plurality of through holes 51 adjacently arranged in a row on the supporting vertical beam 21, and the volume of the pre-breaking block 211 is small, so that the third pre-breaking structure 5 composed of the through holes 51 is more labor-saving when the pre-breaking block 211 needs to be broken.

Please refer to fig. 4-7, in the second embodiment of the present invention, a PCB jointed board structure for producing an electronic detonator control module is provided, the PCB jointed board structure is an integrated jointed structure composed of a plurality of PCB veneers 0, a fourth pre-breaking structure 8 is provided at the joint between each PCB veneer 0, fig. 4 and 6-7 show the PCB jointed board structure of PCB veneers 0 in different quantities, in the actual production, the quantity of PCB veneers 0 is set according to the requirement, and is not limited to the quantity shown in the present embodiment. From this, can be according to actual production quantity, through a plurality of PCB veneers 0 of fourth prefracture structure 8 division on a PCB board, every PCB veneer 0 sets up a plurality of PCB subboards 11 according to the demand to improve electronic detonator control circuit board's production efficiency.

The embodiment of the utility model discloses through set up a plurality of PCB daughter boards 11 on a PCB veneer 0, in batches to a plurality of PCB daughter boards 11 paste required components and parts after, through breaking disconnected first pre-breaking structure 3 off with the fingers and thumb, obtain a large amount of independent electronic detonator control module in advance such as 211, still can divide a plurality of PCB veneers 0 through fourth pre-breaking structure 8 on a PCB board, every PCB veneer 0 sets up a plurality of PCB daughter boards 11 according to the demand, thereby realize the batch production to electronic detonator control circuit board, and high production efficiency.

Specifically, in the embodiment of the present invention, the first pre-breaking structure 3, the second pre-breaking structure 4 and the fourth pre-breaking structure 8 are brittle lines with groove structures on the cross section of the PCB, so that the processing process is simple and quick, and the use is convenient.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

While the embodiments of the present invention have been described with reference to the accompanying drawings, the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many modifications may be made by one skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.

Claims (6)

1. A PCB single board for producing an electronic detonator control module is characterized by comprising a connecting frame and a module processing part; the side-connected frame is of a rectangular frame structure formed by two supporting vertical beams, a first supporting cross beam and a second supporting cross beam, and pre-breaking blocks are arranged at one ends of the two supporting vertical beams, which are close to the second supporting cross beam; the module processing part is located in the side frame, a plurality of PCB daughter boards used for processing the electronic detonator control module are arranged at intervals of the module processing part, and first pre-breaking structures are arranged between the PCB daughter boards and the first supporting cross beams and between the PCB daughter boards and the second supporting cross beams.

2. The PCB veneer for producing electronic detonator control modules according to claim 1, wherein positioning holes are arranged on both the supporting vertical beams and the first supporting cross beam.

3. The PCB single board for producing the electronic detonator control module according to claim 1, wherein second pre-breaking structures are arranged between one end of the pre-breaking block and the second supporting cross beam and between the other end of the two supporting vertical beams and the first supporting cross beam, and the second pre-breaking structures and the first pre-breaking structures are positioned on the same horizontal plane.

4. The PCB single board for producing the electronic detonator control module according to claim 3, wherein the other end of the pre-breaking block is a third pre-breaking structure arranged on the supporting vertical beam.

5. The PCB board for producing an electronic detonator control module according to claim 4 wherein the third pre-breaking structure is composed of a plurality of through holes arranged adjacently on the supporting vertical beam in a row.

6. A PCB jointed board structure for producing an electronic detonator control module, wherein the PCB jointed board structure is a spliced structure formed by a plurality of PCB single boards as claimed in any one of claims 1 to 5, and a fourth pre-breaking structure is arranged at the spliced part between the PCB single boards.

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