CN112462210A

CN112462210A - Pop out portable firer device tester that can put on shelf

Info

Publication number: CN112462210A
Application number: CN202011304121.7A
Authority: CN
Inventors: 王志伟; 陈晓雪; 陈立峰; 刘继红; 赵连春
Original assignee: Harbin Nuoxin Measurement And Control Technology Co Ltd
Current assignee: Harbin Nuoxin Measurement And Control Technology Co Ltd
Priority date: 2020-11-19
Filing date: 2020-11-19
Publication date: 2021-03-09

Abstract

A pop-up portable up-shelf tester for an initiating explosive device belongs to the field of initiating explosive device testing. The problem of current initiating explosive device tester not support the upper bracket, and the portability is poor is solved. The front panel can be locked with the shell through the pop-up mechanism, and the front panel and the shell form a rectangular shell with an upper opening structure; the front panel can also be separated from the shell through an ejecting mechanism; the front panel, the internal machine and the battery are integrated; the two sliding rails are respectively connected with the left side surface and the right side surface of the inner machine in a sliding manner; the ejection mechanism is positioned between one sliding rail and the side wall of the rectangular shell with the upper opening structure corresponding to the sliding rail, the fixed part of the ejection mechanism is fixed on the non-sliding surface of the sliding rail, and the ejection part of the ejection mechanism is fixed on the rear surface of the front panel; the fixed part of the pop-up mechanism is connected with the pop-up part in a buckling mode. The invention is mainly used for testing the initiating explosive device.

Description

Pop out portable firer device tester that can put on shelf

Technical Field

The invention belongs to the field of testing of initiating explosive devices.

Background

The tester for the initiating explosive device can test multiple performances of the initiating explosive device, including the channel resistance of a related initiating explosive circuit and the insulation condition of the initiating explosive circuit and a related contact, so that the initiating explosive test function is realized. In recent years, with the improvement of production process level and increasingly complex product route, aiming at the problems that the existing initiating explosive device tester applied in the market has large size and large appearance which is nonstandard size, can not be installed on a standard cabinet, namely, does not support shelving, brings difficulty to the integration of the whole system, and when the initiating explosive device is tested, the initiating explosive device tester is carried to the site, is matched with a test system for use, and needs to be externally connected with a matched power supply, so that the portability of the initiating explosive device tester is poor; therefore, the above problems need to be solved.

Disclosure of Invention

The invention aims to solve the problems that the existing tester for the initiating explosive device does not support shelving and is poor in portability, and provides a pop-up portable tester for the racking initiating explosive device.

A portable pop-up firer device tester capable of being put on shelf comprises a front panel 1, a shell 2, an inner machine 3, a battery 4, a slide rail 5, a wire smoothing frame 6 and a pop-up mechanism 7;

the inner machine 3 is of a cuboid structure and is used for testing initiating explosive devices;

the front panel 1 is a flat plate structure, the front panel 1 can be locked with the shell 2 through the pop-up mechanism 7, and the front panel 1 and the shell 2 enclose a rectangular shell with an upper opening structure; the front panel 1 can also be separated from the shell 2 through an ejecting mechanism 7;

the front surface of the front panel 1 serves as the front surface of a rectangular case of an upper opening structure;

the rear surface of the front panel 1 is fixedly connected with the front surface of the inner machine 3, the battery 4 is arranged in the inner machine 3 in a drawable manner and is positioned on the rear surface of the inner machine 3, the battery 4 is used for supplying power to the inner machine 3, and the front panel 1, the inner machine 3 and the battery 4 are integrated;

the two sliding rails 5 are laid in the rectangular shell of the upper opening structure and are respectively positioned at the left side and the right side of the inner machine 3, and the two sliding rails 5 are respectively connected with the left side surface and the right side surface of the inner machine 3 in a sliding manner;

the pop-up mechanism 7 is positioned between one sliding rail 5 and the side wall of the rectangular shell with the upper opening structure corresponding to the sliding rail 5, a fixed part 7-1 of the pop-up mechanism 7 is fixed on the non-sliding surface of the sliding rail 5, and a pop-up part 7-2 of the pop-up mechanism 7 is fixed on the rear surface of the front panel 1; the fixed part 7-1 and the ejecting part 7-2 of the ejecting mechanism 7 are connected in a buckling way;

the wire smoothing frame 6 is a foldable frame body and is positioned in the rectangular shell with the upper opening structure, and two ends of the wire smoothing frame 6 are respectively hinged to the rear surface of the inner machine 3 and the rectangular shell with the upper opening structure;

the left side and the right side of the shell 2 are provided with connecting mechanisms 2-1, and the connecting mechanisms 2-1 are used for being fixedly connected with a rack to be installed.

Preferably, the fixing part 7-1 of the ejection mechanism 7 comprises a base 7-1-1, two telescopic rods 7-1-2, a baffle 7-1-3 and two lower springs 7-1-4;

the base 7-1-1 is a rectangular shell with a right opening structure, and a rectangular through hole is formed in the front surface of the base 7-1-1;

the rear wall surface of the base 7-1-1 is fixedly connected with a non-sliding surface of the corresponding slide rail 5, the two telescopic rods 7-1-2, the baffle 7-1-3 and the two lower springs 7-1-4 are all arranged in the rectangular shell with a right opening structure, one ends of the two telescopic rods 7-1-2 are fixed on the left wall surface in the rectangular shell with the right opening structure, and the other ends of the two telescopic rods 7-1-2 are fixedly connected with one side surface of the baffle 7-1-3;

the two lower springs 7-1-4 are respectively sleeved on the two telescopic rods 7-1-2, one ends of the two lower springs 7-1-4 are fixedly connected with the left wall surface in the rectangular shell with the right opening structure, and the other ends of the two lower springs 7-1-4 are fixedly connected with one side surface of the baffle 7-1-3;

the baffle sheets 7-1-3 can slide left and right in the rectangular shell with the right opening structure;

a first limiting block 7-1-5 and a second limiting block 7-1-6 are arranged in the rectangular shell of the right opening structure, the second limiting block 7-1-6 is close to the right opening of the rectangular shell of the right opening structure, and the first limiting block 7-1-5 is used for limiting the baffle 7-1-3; the second limiting block 7-1-6 is used for limiting the ejecting part 7-2, so that the ejecting part 7-2 is buckled in the rectangular shell with the right opening structure.

Preferably, the ejecting part 7-2 of the ejecting mechanism 7 comprises a buckle seat 7-2-1, two snap springs 7-2-2, a push rod 7-2-3 and an upper spring 7-2-4;

the buckle seat 7-2-1 is of a flat plate structure, and when the pop-up part 7-2 is buckled in the rectangular shell of the right opening structure, one end face of the buckle seat 7-2-1 is contacted with the other side face of the baffle 7-1-3;

the buckle seat 7-2-1 is provided with a first vertical plate 7-2-1-1 and a second vertical plate 7-2-1-2, and the first vertical plate 7-2-1-1 and the second vertical plate 7-2-1-2 are oppositely arranged at two ends of the buckle seat 7-2-1;

one side surface of the first vertical plate 7-2-1-1 is fixedly connected with the rear surface of the front panel 1;

one end of the push rod 7-2-3 penetrates through the first vertical plate 7-2-1-1 and the front panel 1 in sequence and extends out of the front panel 1;

the other end of the push rod 7-2-3 is fixedly connected with one end of an upper spring 7-2-4, the other end of the upper spring 7-2-4 is fixedly connected with the second vertical plate 7-2-1-2, and the upper spring 7-2-4 is extruded between the second vertical plate 7-2-1-2 and the other end of the push rod 7-2-3;

the two clamp springs 7-2-2 are both in contact with the push rod 7-2-3 and are respectively positioned at two sides of the push rod 7-2-3, the two clamp springs 7-2-2 are both fixed on the clamp seat 7-2-1 through a rotating shaft, and the two clamp springs 7-2-2 can rotate relative to the rotating shaft;

the snap fastener seat 7-2-1 is also provided with two clamp spring blocking plates 7-2-1-3, and the two clamp spring blocking plates 7-2-1-3 are respectively used for limiting the rotation angle of the two clamp springs 7-2-2;

the snap spring 7-2-2 is limited by the second limiting block 7-1-6 by changing the feeding depth of the pressing push rod 7-2-3, so that the popping part 7-2 is clamped in the rectangular shell with the right opening structure, or the snap spring 7-2-2 is separated from the limiting of the second limiting block 7-1-6, and the popping part 7-2 pops out of the rectangular shell with the right opening structure.

Preferably, the wire smoothing frame 6 comprises two strip-shaped wire smoothing grooves, one ends of the two strip-shaped wire smoothing grooves are connected through a rotating shaft, and the two strip-shaped wire smoothing grooves can rotate relative to the rotating shaft; the other end of the strip wire smoothing groove serving as one end of the wire smoothing frame 6 is hinged to the rear surface of the inner machine 3;

the other end of the other strip-shaped wire smoothing groove serving as the other end of the wire smoothing frame 6 is hinged on a rectangular shell of an upper opening structure surrounded by the front panel 1 and the shell 2.

Preferably, two handles 1-1 are provided on the front panel 1, and the two handles 1-1 are symmetrically provided on the left and right sides of the front surface of the front panel 1.

Preferably, the rear surface of the inner unit 3 is provided with a battery storage groove for storing the battery 4.

Preferably, the battery 4 is locked with the battery storage compartment by touching the locking mechanism.

Preferably, the front panel 1 and the cabinet 2 enclose a rectangular casing with an upper opening structure, and a wiring hole 2-2 is formed in the rear wall surface of the rectangular casing for guiding the signal wire led out from the inner unit 3 out of the rectangular casing with the upper opening structure.

The invention has the advantages that the invention is used for solving the problems that the existing initiating explosive device tester does not support the upper frame and has poor portability, and the initiating explosive device tester in the prior art is improved aiming at the two points, so that the portability and the standard type coexist, namely the initiating explosive device tester can be installed in a standard cabinet to form system integration with other products; and can be detached independently to be used as portable equipment. And the inner machine 3 and the shell 2 of the tool device tester adopt a pop-up drawer design, so that the inner machine 3 and the upper frame mechanism can be quickly separated, and the purpose of quickly and conveniently replacing the inner machine or disassembling the inner machine is achieved.

The battery 4 is arranged in the inner machine 3 in a drawable manner, so that the battery 4 is convenient to disassemble, and when the battery 4 needs to be replaced, the battery 4 can be replaced only by drawing out the old battery from the inner machine 3; the limitation that an external power supply is needed to be used when the initiating device tester works is eliminated, and more possibilities are provided for the application occasions of the initiating device tester.

When the portable top-mounted fire work device tester is specifically applied, the front panel 1 can be locked with the shell 2 through the pop-up mechanism 7, and then the connecting mechanism 2-1 is fixedly connected with a rack to be mounted, so that top-mounted mounting of the pop-up portable top-mounted fire work device tester is realized; when the field environment space is small and the operation of putting on the shelf cannot be carried out, the integrated piece formed by the front panel 1, the internal machine 3 and the battery 4 can be popped out of the shell 2 through the popping mechanism 7, the wire smoothing frame 6 is stretched, the wire smoothing frame 6 is separated from the rectangular shell with the upper opening structure, the integrated piece is completely separated from the shell 2, the integrated piece formed by the front panel 1, the internal machine 3 and the battery 4 is carried to the field, the testing of an firer device is realized, and the device is portable.

The wire smoothing frame 6 is a foldable frame body and can be compressed between the inner machine 3 and the rear wall surface of the rectangular shell with the upper opening structure, the wire smoothing frame 6 is used for carding signal wires led out from the inner machine 3, so that the cables are fixed in order, and when the inner machine 3 is inserted and pulled, the cables cannot rub with the bottom surface of the shell 2, so that the abrasion of the cables is effectively reduced, and the service life of the cables is prolonged.

Drawings

FIG. 1 is a schematic diagram of a completed assembled portable pop-up firer unit tester according to the present invention;

fig. 2 is a schematic structural diagram of the tester for the pop-up portable up-shelf firer device according to the present invention when the front panel 1 in fig. 1 is in a pop-up state;

FIG. 3 is a front view of FIG. 1;

fig. 4 is a schematic structural view of the eject portion 7-2 of the eject mechanism 7 in the ejected state;

FIG. 5 is a partial cross-sectional view of FIG. 4;

fig. 6 is a schematic structural view of the eject portion 7-2 of the eject mechanism 7 in a locked state;

fig. 7 is a partial sectional view of the ejector 7-2 of the ejector mechanism 7 in the locked state.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

Referring to fig. 1 to 3, the embodiment is described, and the portable pop-up firer device tester of the embodiment includes a front panel 1, a casing 2, an internal machine 3, a battery 4, a slide rail 5, a wire straightening frame 6 and a pop-up mechanism 7;

In the embodiment, the battery 4 is arranged in the inner machine 3 in a drawable manner, so that the battery 4 is convenient to disassemble, and when the battery 4 needs to be replaced, the battery 4 can be replaced only by drawing out the old battery from the inner machine 3; the limitation that an external power supply is needed to be used when the initiating device tester works is eliminated, and more possibilities are provided for the application occasions of the initiating device tester.

The casing 2 comprises three side surfaces and a bottom surface, the three side surfaces are vertically fixed on the bottom surface, the three side surfaces surround to form a U-shaped structure, the U-shaped structure and the front panel 1 are surrounded, and the front panel 1 and the casing 2 can form a rectangular casing with an upper opening structure.

Further, referring specifically to fig. 4 to 7, the fixing portion 7-1 of the pop-up mechanism 7 includes a base 7-1-1, two telescopic rods 7-1-2, a blocking piece 7-1-3 and two lower springs 7-1-4;

In the preferred embodiment, a specific structure of the fixing portion 7-1 of the eject mechanism 7 is given, which is simple and easy to implement.

Further, referring specifically to fig. 4 to 7, the ejecting part 7-2 of the ejecting mechanism 7 includes a snap seat 7-2-1, two snap springs 7-2-2, a push rod 7-2-3 and an upper spring 7-2-4;

In the preferred embodiment, a specific structure of the pop-up part 7-2 of the pop-up mechanism 7 is provided, and the specific structure of the pop-up part 7-2 and the specific structure of the fixing part 7-1 can be matched with each other, so that the snap spring 7-2-2 is limited by the second limiting block 7-1-6, and the pop-up part 7-2 is clamped in the rectangular shell with the right opening structure, or the snap spring 7-2-2 is separated from the limiting of the second limiting block 7-1-6, so that the pop-up part 7-2 pops up the rectangular shell with the right opening structure.

When the clamp spring is applied specifically, extension lines of the two clamp springs 7-2-2 are intersected.

When the clamp spring 7-2-2 is limited by the second limiting block 7-1-6, so that the popup part 7-2 is clamped in the rectangular shell with the right opening structure, the front panel 1, the internal unit 3 and the battery 4 which are fixedly connected with the popup part 7-2 are locked as a whole;

when the clamp spring 7-2-2 is separated from the limit of the second limit block 7-1-6, and the popup part 7-2 pops out of the rectangular shell with the right opening structure, the front panel 1, the internal unit 3 and the battery 4 which are fixedly connected with the popup part 7-2 are popped out as a whole;

the ejection part 7-2 is simple in structure and convenient to implement.

During specific application, one, when needs make the interior machine 3 break away from casing 2, at this moment, front panel 1 locks with casing 2 through pop-up mechanism 7, and the concrete process that specifically realizes interior machine 3 and breaks away from casing 2 is: when the push rod 7-2-3 is pressed and moves inwards, the upper spring 7-2-4 and the lower spring 7-1-4 are further compressed, a thrust is applied to the clamp spring 7-2-2, the two clamp springs 7-2-2 are opened, the clamp spring 7-2-2 is separated from the limit position of the second limit block 7-1-6, the upper spring 7-2-4 and the lower spring 7-1-4 are simultaneously ejected outwards, and the lower spring 7-1-4 pushes the blocking piece 7-1-3 to move, so that the blocking piece 7-1-3 pushes the ejecting part 7-2 to eject, and finally the inner machine 3 fixedly connected with the ejecting part 7-2 is separated from the machine shell 2.

Secondly, when the internal machine 3 is required to be inserted into the casing 2 for locking, at this time, the integrated part fixedly connected with the fixing part 7-1 of the pop-up mechanism 7 is completely separated from the casing 2, and all springs of the pop-up mechanism 7 are in a free state, so that the specific process of locking the internal machine 3 and the casing 2 is specifically realized as follows: the push rod 7-2-3 is pushed, the upper spring 7-2-4 is compressed, the two clamp springs 7-2-2 are opened under the action of the push rod 7-2-3, the clamp springs 7-2-2 and the popping part 7-2 integrally enter the base 7-1-1 of the fixing part 7-1 to further push the push rod 7-2-3, the two lower springs 7-1-4 are extruded by the popping part 7-2, and the clamp springs 7-2-2 pass through the second limiting block 7-1-6 and are limited by the second limiting block 7-1-6 to complete locking.

Further, referring to fig. 1 and 2 specifically, the wire stripping frame 6 includes two strip-shaped wire stripping slots, one ends of the two strip-shaped wire stripping slots are connected through a rotating shaft, and the two strip-shaped wire stripping slots can rotate relative to the rotating shaft; the other end of the strip wire smoothing groove serving as one end of the wire smoothing frame 6 is hinged to the rear surface of the inner machine 3;

Further, referring specifically to fig. 3, two handles 1-1 are provided on the front panel 1, and the two handles 1-1 are symmetrically provided on the left and right sides of the front surface of the front panel 1.

Further, referring specifically to fig. 1 and 2, the rear surface of the inner unit 3 is provided with a battery storage groove for storing the battery 4.

Further, referring specifically to fig. 1 and 2, the battery 4 is locked with the battery storage slot by touching the locking mechanism.

In the embodiment, the battery 4 is arranged in the inner machine 3 in a drawable manner, so that the inner machine is convenient to disassemble, the battery box of the inner machine is designed into a drawable and detachable structure, a touch type locking mechanism is used in the inner machine, and when the battery 4 needs to be replaced, the battery 4 can be replaced only by drawing out the old battery from the inner machine 3; the limitation that the tester of the initiating explosive device can be used only by providing an external power supply is eliminated, and more possibilities are provided for the application occasions of the tester of the initiating explosive device.

Further, referring specifically to fig. 1, a wiring hole 2-2 is provided on a rear wall surface of the rectangular casing in which the front panel 1 and the cabinet 2 enclose an upper opening structure, for guiding a signal line led out from the internal unit 3 out of the rectangular casing in the upper opening structure.

Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims. It should be understood that features described in different dependent claims and herein may be combined in ways different from those described in the original claims. It is also to be understood that features described in connection with individual embodiments may be used in other described embodiments.

Claims

1. A tester of a pop-up portable up-frame firer device is characterized by comprising a front panel (1), a shell (2), an inner machine (3), a battery (4), a slide rail (5), a wire straightening frame (6) and a pop-up mechanism (7);

the inner machine (3) is of a cuboid structure and is used for testing initiating explosive devices;

the front panel (1) is of a flat plate structure, the front panel (1) can be locked with the shell (2) through the pop-up mechanism (7), and the front panel (1) and the shell (2) enclose a rectangular shell with an upper opening structure; the front panel (1) can also be separated from the shell (2) through an ejecting mechanism (7);

the front surface of the front panel (1) is used as the front surface of a rectangular shell with an upper opening structure;

the rear surface of the front panel (1) is fixedly connected with the front surface of the inner machine (3), the battery (4) is arranged in the inner machine (3) in a drawable manner and is positioned on the rear surface of the inner machine (3), the battery (4) is used for supplying power to the inner machine (3), and the front panel (1), the inner machine (3) and the battery (4) are integrated;

the two sliding rails (5) are laid in the rectangular shell of the upper opening structure and are respectively positioned at the left side and the right side of the inner machine (3), and the two sliding rails (5) are respectively connected with the left side surface and the right side surface of the inner machine (3) in a sliding manner;

the pop-up mechanism (7) is positioned between one sliding rail (5) and the side wall of the rectangular shell with the upper opening structure corresponding to the sliding rail (5), a fixed part (7-1) of the pop-up mechanism (7) is fixed on the non-sliding surface of the sliding rail (5), and a pop-up part (7-2) of the pop-up mechanism (7) is fixed on the rear surface of the front panel (1); the fixed part (7-1) of the pop-up mechanism (7) is connected with the pop-up part (7-2) in a buckling way;

the wire smoothing frame (6) is a foldable frame body and is positioned in the rectangular shell with the upper opening structure, and two ends of the wire smoothing frame (6) are respectively hinged to the rear surface of the inner machine (3) and the rectangular shell with the upper opening structure;

the left side and the right side of the shell (2) are provided with connecting mechanisms (2-1), and the connecting mechanisms (2-1) are used for being fixedly connected with a rack to be installed.

2. The pop-up portable racking pyrotechnic device tester as claimed in claim 1, wherein the fixed part (7-1) of the pop-up mechanism (7) comprises a base (7-1-1), two telescopic rods (7-1-2), a baffle (7-1-3) and two lower springs (7-1-4);

the base (7-1-1) is a rectangular shell with a right opening structure, and a rectangular through hole is formed in the front surface of the base (7-1-1);

the rear wall surface of the base (7-1-1) is fixedly connected with a non-sliding surface of the corresponding slide rail (5), the two telescopic rods (7-1-2), the baffle plate (7-1-3) and the two lower springs (7-1-4) are all arranged in the rectangular shell with the right opening structure, one ends of the two telescopic rods (7-1-2) are all fixed on the left wall surface in the rectangular shell with the right opening structure, and the other ends of the two telescopic rods (7-1-2) are all fixedly connected with one side surface of the baffle plate (7-1-3);

the two lower springs (7-1-4) are respectively sleeved on the two telescopic rods (7-1-2), one ends of the two lower springs (7-1-4) are fixedly connected with the left wall surface in the rectangular shell with the right opening structure, and the other ends of the two lower springs (7-1-4) are fixedly connected with one side surface of the baffle plate (7-1-3);

the baffle plates (7-1-3) can slide left and right in the rectangular shell with the right opening structure;

a first limiting block (7-1-5) and a second limiting block (7-1-6) are arranged in the rectangular shell of the right opening structure, the second limiting block (7-1-6) is close to the right opening of the rectangular shell of the right opening structure, and the first limiting block (7-1-5) is used for limiting the blocking piece (7-1-3); the second limiting block (7-1-6) is used for limiting the ejecting part (7-2), so that the ejecting part (7-2) is buckled in the rectangular shell with the right opening structure.

3. The pop-up portable racking-on pyrotechnic device tester as claimed in claim 2 wherein the pop-up portion (7-2) of the pop-up mechanism (7) comprises a snap seat (7-2-1), two snap springs (7-2-2), a push rod (7-2-3) and an upper spring (7-2-4);

the buckling seat (7-2-1) is of a flat plate structure, and when the popping part (7-2) is buckled in the rectangular shell of the right opening structure, one end face of the buckling seat (7-2-1) is contacted with the other side face of the blocking piece (7-1-3);

a first vertical plate (7-2-1-1) and a second vertical plate (7-2-1-2) are arranged on the buckle seat (7-2-1), and the first vertical plate (7-2-1-1) and the second vertical plate (7-2-1-2) are oppositely arranged at two ends of the buckle seat (7-2-1);

one side surface of the first vertical plate (7-2-1-1) is fixedly connected with the rear surface of the front panel (1);

one end of the push rod (7-2-3) penetrates through the first vertical plate (7-2-1-1) and the front panel (1) in sequence and extends out of the front panel (1);

the other end of the push rod (7-2-3) is fixedly connected with one end of an upper spring (7-2-4), the other end of the upper spring (7-2-4) is fixedly connected with a second vertical plate (7-2-1-2), and the upper spring (7-2-4) is extruded between the second vertical plate (7-2-1-2) and the other end of the push rod (7-2-3);

the two clamp springs (7-2-2) are both contacted with the push rod (7-2-3) and are respectively positioned at two sides of the push rod (7-2-3), the two clamp springs (7-2-2) are both fixed on the clamp seat (7-2-1) through a rotating shaft, and the two clamp springs (7-2-2) can rotate relative to the rotating shaft;

the snap fastener seat (7-2-1) is also provided with two snap spring blocking plates (7-2-1-3), and the two snap spring blocking plates (7-2-1-3) are respectively used for limiting the rotation angle of the two snap springs (7-2-2);

the snap spring (7-2-2) is limited by the second limiting block (7-1-6) by changing the feeding depth of the pressing push rod (7-2-3), so that the popping part (7-2) is clamped in the rectangular shell with the right opening structure, or the snap spring (7-2-2) is separated from the limiting of the second limiting block (7-1-6), and the popping part (7-2) pops out of the rectangular shell with the right opening structure.

4. The pop-up portable erectable firer device tester as in claim 1, wherein the wire frame (6) comprises two elongated wire slots, one end of each of which is connected by a shaft, and the two elongated wire slots are rotatable relative to the shaft; the other end of the strip wire straightening groove is used as one end of a wire straightening frame (6) and is hinged on the rear surface of the inner machine (3);

the other end of the other strip-shaped wire smoothing groove serving as the other end of the wire smoothing frame (6) is hinged on a rectangular shell of an upper opening structure surrounded by the front panel (1) and the shell (2).

5. The pop-up portable racking pyrotechnic device tester as claimed in claim 1, wherein the front panel (1) is provided with two handles (1-1), the two handles (1-1) being symmetrically disposed at left and right sides of the front surface of the front panel (1).

6. The pop-up portable racking-on pyrotechnic device tester as claimed in claim 1, wherein the rear surface of the inner unit (3) is provided with a battery storage groove for storing the battery (4).

7. The pop-up portable racking fireset tester as claimed in claim 6, wherein said battery (4) is locked with said battery storage well by a touch lock mechanism.

8. The pop-up portable racking-on firer device tester as claimed in claim 1, wherein the wiring hole (2-2) is provided on the rear wall surface of the rectangular case enclosing the upper opening structure by the front panel (1) and the cabinet (2) for guiding the signal wire led out from the inner unit (3) out of the rectangular case of the upper opening structure.