CN115199148A

CN115199148A - Electric control gun lock

Info

Publication number: CN115199148A
Application number: CN202210868396.6A
Authority: CN
Inventors: 谭宇祥; 陈耀坛
Original assignee: Guangzhou Zhengyou Intelligent Technology Co ltd
Current assignee: Guangzhou Zhengyou Intelligent Technology Co ltd
Priority date: 2022-07-22
Filing date: 2022-07-22
Publication date: 2022-10-18

Abstract

The application discloses an electronic control gun lock, which comprises a shell, wherein the shell comprises a front shell and a rear shell; one end of the lock tongue is rotatably connected with the inner wall of the front shell, through holes are formed in two opposite side walls of the notch of the front shell, and the other end of the lock tongue is inserted between the two through holes in a sliding manner; the sliding insert piece divides the front shell into a left cavity and a right cavity, and is connected with a magnet; the single-module PCB main board is assembled in the right cavity and is provided with a Hall sensing unit, and the Hall sensing unit and the magnet are subjected to magnetic induction; the driving assembly is assembled in the left cavity, the single-module PCB mainboard is electrically connected with the driving assembly, the driving assembly drives the lock tongue to rotate, and then the other end of the lock tongue is driven to be slidably inserted between the two through holes. This application can improve the assembly efficiency of rifle lock and the maintenance of convenient measurement personnel to rifle lock.

Description

Electric control gun lock

Technical Field

The application relates to the field of gun locks, in particular to an electric control gun lock.

Background

The lock is an instrument with sealing function, and comprises a lock, a key and other accessories, and the lock can be unlocked by using the key and also can be unlocked by using instructions such as light, electricity, magnetism, sound, fingerprints and the like.

The gun lock is a lock for locking the gun, and the gun belongs to a dangerous appliance and cannot be used generally at emergency, so that the requirements on the safety and reliability of the gun lock for locking the gun are very high.

The main part of current automatically controlled rifle lock is the casing, and the casing is formed by preceding shell and backshell amalgamation, and preceding shell and backshell all are equipped with the used spare part of mechanical activity, and the preceding shell of colleague all is equipped with the PCB mainboard of drive and each spare part activity of control with the backshell, consequently, this assembly design can reduce the assembly efficiency of rifle lock and the maintenance of the detection personnel to the rifle lock of being not convenient for.

Disclosure of Invention

In order to improve the assembly efficiency of rifle lock and the maintenance of convenient measurement personnel to the rifle lock, this application provides an automatically controlled rifle lock.

The application provides an automatically controlled rifle lock adopts following technical scheme:

an electronically controlled gun lock, comprising:

the shell comprises a front shell for assembling parts and a rear shell for covering the front shell, and the front shell and the rear shell are both in a concave shape;

the spring bolt is L-shaped, one end of the spring bolt is rotatably connected with the inner wall of the front shell, through holes are formed in two opposite side walls at the notch of the front shell, and the other end of the spring bolt is slidably inserted between the two through holes;

the sliding plug-in is positioned on a symmetry axis of the front shell, divides the front shell into a left cavity and a right cavity, and is connected with a magnet;

the single-module PCB main board is assembled in the right cavity and is provided with a Hall sensing unit, and the Hall sensing unit and the magnet are subjected to magnetic induction;

the driving assembly is assembled in the left cavity, the single-module PCB mainboard is electrically connected with the driving assembly, and the driving assembly drives the spring bolt to rotate so as to drive the other end of the spring bolt to be slidably inserted between the two through holes.

Furthermore, the driving assembly comprises a driving piece, a gear mechanism and a stirring piece, an output shaft of the driving piece is connected with a worm, the stirring piece is rotatably connected to the inner wall of the front shell, the worm drives the gear mechanism to operate, the gear mechanism drives the stirring piece to rotate, the stirring piece is provided with a first acting part, a second acting part is arranged at the end part of the lock tongue, and when the stirring piece rotates, the first acting part is matched with the second acting part to drive the lock tongue to rotate.

By adopting the technical scheme, the gun lock main body is a shell, the shell comprises a front shell for assembling parts and a rear shell for covering the front shell, the shell is divided into a front shell and a rear shell, all the parts and a PCB (printed circuit board) main board are integrated on the front shell, and the gun lock main body is favorable for improving the assembling efficiency of the gun lock and facilitating the maintenance of a tester on the gun lock; meanwhile, the sliding plug-in unit divides the front shell into a left cavity and a right cavity, the single-module PCB mainboard is assembled in the right cavity, and the driving assembly is assembled in the left cavity, so that the electric control part and the mechanical transmission part are divided, and further, the gun lock assembly efficiency is improved, and the gun lock is convenient to maintain by detection personnel.

Further, the gear mechanism comprises a double-layer gear, a reduction gear and a double-layer linkage piece, an upper gear of the double-layer gear is meshed with the worm, a lower gear of the double-layer gear is meshed with the reduction gear, a lower layer of the double-layer linkage piece is a tooth-shaped part, an upper layer of the double-layer linkage piece is a third acting part, the stirring piece is provided with a fourth acting part, the reduction gear is meshed with the tooth-shaped part, and the third acting part is matched with the fourth acting part.

Further, the sliding plug-in components are including sliding plug board and deflector, sliding plug board passes through the socket with preceding shell slip grafting, sliding plug board's length extending direction with the length extending direction syntropy of deflector, sliding plug board's side border with the side of deflector is along the part and links together, just sliding plug board with the deflector all is located the middle part of preceding shell.

Through adopting above-mentioned technical scheme, two spaces of left cavity and right cavity are cut apart into with the preceding shell to smooth plug-in components, single module PCB mainboard assembles in right cavity, drive assembly assembles in left cavity, thereby cut apart automatically controlled part and mechanical transmission part, be favorable to improving the assembly efficiency of gun lock and convenient testing personnel's maintenance to the gun lock further, smooth picture peg and deflector have reduced the width that the space extends and have reduced the route size of marcing, thereby vacate more shell spaces for the assembly of single module PCB mainboard and other spare parts.

Furthermore, one end of the sliding plug board, which is exposed out of the front shell, is connected with a pressing plate.

Through adopting above-mentioned technical scheme, the clamp plate can effectively increase the area of contact between user and the slip picture peg to help the better slip of user to insert the slip picture peg in preceding shell.

Further, preceding shell is provided with the recess, the recess is located on the symmetry axis of preceding shell, slide plate overlap joint in the notch edge of recess, the length extending direction of recess with slide plate's length extending direction is unanimous, slide plate's bottom surface fixedly connected with card, the card peg graft in the recess, the card in slide in the recess, be provided with the spring in the recess, spring one end fixed connection in the recess is kept away from the one end of socket, the other end and card butt.

Furthermore, the lateral wall of recess is connected with the setting element, the bar hole has been seted up along length direction to the deflector, the deflector overlap joint in the top of setting element, the top threaded connection of setting element has the screw, screw part screw rod leak outward in the setting element, the screw rod part that leaks outward pass through the bar hole with deflector sliding connection, the nut butt of screw the top surface of deflector.

Furthermore, the inner wall of preceding shell is fixed and is provided with a plurality of plug wire seats, the plug wire seat wears to establish single module PCB mainboard.

Through adopting above-mentioned technical scheme, the plug wire seat is used for concentrating single module PCB mainboard and is connected used electric wire with the drive assembly electricity, effectively avoids crossing in the interference of dispersed electric wire pair machine parts activity in the preceding shell to make the machine parts activity in the preceding shell more smooth.

In summary, the present application includes the following advantageous effects:

the gun lock main body is a shell, the shell comprises a front shell for assembling parts and a rear shell for covering the front shell, the shell is divided into a front shell and a rear shell, all the parts and a PCB (printed circuit board) main board are integrated on the front shell, and therefore the gun lock main body is beneficial to improving the assembling efficiency of the gun lock and facilitating the maintenance of a tester on the gun lock; meanwhile, the sliding plug-in unit divides the front shell into a left cavity and a right cavity, the single-module PCB mainboard is assembled in the right cavity, and the driving assembly is assembled in the left cavity, so that the electric control part and the mechanical transmission part are divided, and further, the gun lock assembly efficiency is improved, and the gun lock is convenient to maintain by detection personnel.

Drawings

To more clearly illustrate the method of embodiments of the present application or the technical solutions in the prior art, the following briefly introduces the drawings that are needed for practical purposes in the description of embodiments or the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive effort.

Fig. 1 is a structural view a of the inside of a front shell of an electronically controlled gun lock in an embodiment of the present application.

Fig. 2 is a structural view b of the inside of a front shell of an electronically controlled gun lock in the embodiment of the present application.

Fig. 3 is a structural view c of the inside of a front case of an electronically controlled gun lock according to an embodiment of the present application.

Fig. 4 is a block diagram of a slide insert of an electronically controlled gun lock in an embodiment of the present application.

Description of reference numerals:

1. a front housing; 2. a latch bolt; 21. a second acting part; 3. a slide insert; 31. a magnet; 32. a sliding plug board; 321. a card; 33. a guide plate; 331. a strip-shaped hole; 4. a single module PCB motherboard; 5. a drive member; 51. a worm; 52. a toggle member; 521. a first acting part; 522. a fourth acting part; 53. a double-layer gear; 54. a reduction gear; 55. a double-layer linkage; 551. a tooth-shaped portion; 552. a third acting part; 6. pressing a plate; 7. a groove; 71. a positioning member; 72. a screw; 73. a spring; 8. a plug wire seat.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an electronic control gun lock. As shown in fig. 1 and 2, an electric control gun lock comprises a shell, a bolt 2, a sliding plug 3, a single-module PCB mainboard 4 and a driving assembly, wherein the shell comprises a front shell 1 and a rear shell, the front shell 1 and the rear shell are both in a concave shape, the bolt 2 is in an L shape, the bolt 2 is arranged in the front shell 1, one end of the bolt 2 is rotatably connected with the inner wall of the front shell 1, through holes are respectively formed in two opposite side walls at the notch of the front shell 1, the other end of the bolt 2 is slidably inserted between the two through holes, a socket is formed in the notch of the front shell 1 and is positioned on a symmetry axis of the front shell 1, the sliding plug 3 is slidably inserted into the front shell 1 through the socket, the sliding plug 3 is positioned on the symmetry axis of the front shell 1, and the sliding plug 3 divides the front shell 1 into a left cavity and a right cavity; single module PCB mainboard 4 assemble in the cavity of the right side, drive assembly assemble in the cavity of a left side, be provided with a plurality of plug wire seats 8 in the cavity of the right side, single module PCB mainboard 4 is worn to establish by plug wire seat 8, single module PCB mainboard 4 is connected with the drive assembly electricity, drive assembly drive spring bolt 2 rotates, and then the other end that drives spring bolt 2 slides and inserts between two through-holes, single module PCB mainboard 4 is equipped with hall induction unit, slides and inserts 3 and is connected with magnet 31, hall induction unit and 31 magnetic inductions of magnet.

Smooth plug-in components 3 slides through socket and preceding 1 shells and pegs graft, and hall induction element and magnet 31 magnetic induction this moment send the signal of telecommunication to drive assembly after single module PCB mainboard 4 received the signal, and drive spring bolt 2 rotates after drive assembly received the signal of telecommunication to realize the closed activity of spring bolt 2.

The gun lock main body is a shell, the shell comprises a front shell 1 for assembling parts and a rear shell for covering the front shell 1, the shell is divided into a front shell 1 and a rear shell, all the parts and a PCB (printed circuit board) main board are integrated on the front shell 1, and the gun lock main body is favorable for improving the assembling efficiency of the gun lock and facilitating the maintenance of a tester on the gun lock; meanwhile, the sliding plug-in 3 divides the front shell 1 into a left cavity and a right cavity, the single-module PCB mainboard 4 is assembled in the right cavity, and the driving component is assembled in the left cavity, so that the electric control part and the mechanical transmission part are divided, and further, the gun lock assembly efficiency is improved, and the gun lock is convenient to maintain by detection personnel.

The driving assembly comprises a driving part 5, a gear mechanism and a stirring part 52, the driving part 5 in the embodiment of the application is a motor, the driving part 5, the gear mechanism and the stirring part 52 are all assembled in a left cavity of the front shell 1, the driving part 5 is fixedly arranged in the front shell 1, an output shaft of the driving part 5 is connected with a worm 51, the gear mechanism comprises a double-layer gear 53, a reduction gear 54 and a double-layer stirring part 55, the double-layer gear 53, the reduction gear 54 and the double-layer stirring part 55 are all assembled in the left cavity of the front shell 1, the double-layer gear 53, the reduction gear 54 and the double-layer stirring part 55 are all rotatably connected with the inner wall of the front shell 1, an upper-layer gear of the double-layer gear 53 is meshed with the worm 51, the reduction gear 54 is meshed with a lower gear of the double-layer gear 53, the diameter of the reduction gear 54 is larger than that of the lower gear 53, an upper layer of the double-layer stirring part 55 is a third acting part 552, a lower layer is a tooth-shaped part 551, a third acting part 552 and a tooth-shaped part 551 are fixedly connected with a tooth-shaped part 551, a third acting part and a fourth-acting part 552 are coaxially meshed with a stirring part 521, a fourth acting part 522 and a fourth stirring part 521 and a stirring part 21 are arranged on the front shell 21 and a fourth stirring part 21.

Starting the driving part 5, the driving part 5 drives the worm 51 to rotate, the worm 51 rotates to drive the upper gear of the double-layer gear 53 to rotate, the rotation of the upper gear drives the coaxial lower gear to rotate, the lower gear rotates to drive the reduction gear 54 to rotate, the reduction gear 54 rotates to drive the tooth-shaped part 551 to rotate, the tooth-shaped part 551 rotates to drive the coaxial third acting part 552 to rotate, the third acting part 552 drives the fourth acting part 522 of the stirring part 52 to rotate, thereby the first acting part 521 of the stirring part 52 acts on the second acting part 21 of the bolt 2, thereby the rotation of the bolt 2 is realized, one end of the bolt 2 rotates to realize the movement of the other end of the bolt 2 which is slidably inserted between the two through holes, wherein, the gear mechanism performs deceleration processing on the rotating speed of the output shaft of the driving part 5, and thereby the movement of each part is more stable and smooth.

As shown in fig. 3 and 4, the slide plug-in unit 3 includes a slide plug board 32 and a guide plate 33, one end of the slide plug board 32 exposed out of the front shell 1 is connected with a pressing plate 6, a length extending direction of the slide plug board 32 is the same direction as that of the guide plate 33, a side edge of the slide plug board 32 is partially connected with a side edge of the guide plate 33, the slide plug board 32 and the guide plate 33 are integrally formed, the slide plug board 32 and the guide plate 33 are both located in the middle of the front shell 1, the guide plate 33 is close to the single-module PCB main board 4, one side edge of the guide plate 33 is connected with a magnet 31, and the magnet 31 magnetically induces with a hall sensing unit on the single-module PCB main board 4;

the slide plug board 32 and the guide plate 33 are arranged in the middle of the front shell 1, the slide plug board 32 and the guide plate 33 reduce the width of space extension and the size of a path of advancing, so that more shell spaces are vacated for the assembly of a single-module PCB mainboard 4, the problem that the PCB mainboard needs to be divided into two modules for assembly can be solved, and the centralized assembly design of the PCB mainboard effectively improves the assembly efficiency of the gun lock and the maintenance of the gun lock by convenient detection personnel.

The inner wall of the front shell 1 is fixedly connected with a groove 7, the groove 7 is positioned on the symmetry axis of the front shell 1, the notch of the groove 7 faces the rear shell, the bottom surface of the slide inserting plate 32 is fixedly connected with a card 321, the slide inserting plate 32 is lapped on the edge of the notch of the groove 7, the length extending direction of the groove 7 is consistent with the length extending direction of the slide inserting plate 32, the card 321 is inserted into the groove 7, and the card 321 slides in the groove 7;

a spring 73 is fixedly connected to one end of the groove 7 far away from the socket, the spring 73 is embedded in the groove 7, and one end of the spring 73 facing the socket is abutted to the card 321;

the inner wall of the front shell 1 is fixedly provided with a positioning piece 71, the positioning piece 71 is connected with the side wall of the groove 7, the positioning piece 71 and the groove 7 are integrally formed, the guide plate 33 is provided with a strip-shaped hole 331, the length extending direction of the strip-shaped hole 331 is the same as that of the guide plate 33, the top of the positioning piece 71 is provided with a threaded hole, the positioning piece 71 is in threaded connection with a screw 72 through the threaded hole, part of a screw rod of the screw 72 is exposed outside the positioning piece 71, the part of the exposed screw rod is in sliding connection with the guide plate 33 through the strip-shaped hole 331, and a nut of the screw 72 is abutted to the top surface of the guide plate 33;

the slide plug board 32 is lapped on the edge of a notch of the groove 7, the card 321 is inserted into the groove 7, the card 321 slides along the groove 7, the groove 7 has a limiting effect on the sliding motion of the slide plug board 32, meanwhile, the screw 72 leaks out of the positioning piece 71 and is in sliding connection with the guide plate 33 through the strip-shaped hole 331, and further limiting effect is achieved on the sliding motion of the guide plate 33, so that the magnet 31 on the slide plug board 3 is better in magnetic induction with the Hall sensing unit on the single-module PCB main board 4, and further the locking and the opening of the gun lock are smoother.

The implementation principle of this application embodiment automatically controlled rifle lock does: the gun lock main body is a shell, the shell comprises a front shell 1 for assembling parts and a rear shell for covering the front shell 1, the shell is divided into a front shell 1 and a rear shell, all the parts and a PCB (printed circuit board) main board are integrated on the front shell 1, and the gun lock main body is favorable for improving the assembling efficiency of the gun lock and facilitating the maintenance of a tester on the gun lock; meanwhile, the sliding plug-in 3 divides the front shell 1 into a left cavity and a right cavity, the single-module PCB mainboard 4 is assembled in the right cavity, and the driving component is assembled in the left cavity, so that the electric control part and the mechanical transmission part are divided, and further, the gun lock assembly efficiency is improved, and the gun lock is convenient to maintain by detection personnel.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. An electronically controlled gun lock, comprising:

the shell comprises a front shell (1) for assembling parts and a rear shell for covering the front shell (1), wherein the front shell (1) and the rear shell are both in a concave shape;

the bolt (2) is L-shaped, one end of the bolt (2) is rotatably connected with the inner wall of the front shell (1), through holes are formed in two opposite side walls of the notch of the front shell (1), and the other end of the bolt (2) is slidably inserted between the two through holes;

a socket is formed in a notch of the front shell (1), the sliding insert (3) is connected with the front shell (1) in a sliding mode through the socket, the sliding insert (3) is located on a symmetry axis of the front shell (1), the sliding insert (3) divides the front shell (1) into a left cavity and a right cavity, and the sliding insert (3) is connected with a magnet (31);

the single-module PCB main board (4), the single-module PCB main board (4) is assembled in the right cavity, the single-module PCB main board (4) is provided with a Hall sensing unit, and the Hall sensing unit and the magnet (31) are subjected to magnetic induction;

the driving assembly is assembled in the left cavity, the single-module PCB main board (4) is electrically connected with the driving assembly, the driving assembly drives the lock tongue (2) to rotate, and then the other end of the lock tongue (2) is driven to be slidably inserted between the two through holes.

2. An electronically controlled gun lock according to claim 1, wherein: the driving assembly comprises a driving piece (5), a gear mechanism and a shifting piece (52), an output shaft of the driving piece (5) is connected with a worm (51), the shifting piece (52) is connected to the inner wall of the front shell (1) in a rotating mode, the worm (51) drives the gear mechanism to operate, the gear mechanism drives the shifting piece (52) to rotate, the shifting piece (52) is provided with a first acting part (521), the end part of the lock tongue (2) is provided with a second acting part (21), and when the shifting piece (52) rotates, the first acting part (521) is matched with the second acting part (21) to further drive the lock tongue (2) to rotate.

3. An electronically controlled gun lock according to claim 2, wherein: the gear mechanism comprises a double-layer gear (53), a reduction gear (54) and a double-layer linkage piece (55), wherein an upper gear of the double-layer gear (53) is meshed with the worm (51), a lower gear of the double-layer gear (53) is meshed with the reduction gear (54), a lower layer of the double-layer linkage piece (55) is a tooth-shaped part (551), an upper layer of the double-layer linkage piece (55) is a third acting part (552), the stirring piece (52) is provided with a fourth acting part (522), the reduction gear (54) is meshed with the tooth-shaped part (551), and the third acting part (552) is matched with the fourth acting part (522).

4. An electronically controlled gun lock according to claim 1, wherein: slide plug-in components (3) are including slide plug board (32) and deflector (33), slide plug board (32) pass through the socket with preceding shell (1) slides and pegs graft, the length extending direction of slide plug board (32) with the length extending direction syntropy of deflector (33), the side border of slide plug board (32) with the side of deflector (33) is connected together along the part, just slide plug board (32) with deflector (33) all are located the middle part of preceding shell (1).

5. An electronically controlled gun lock according to claim 4, wherein: one end of the sliding insertion plate (32) exposed out of the front shell (1) is connected with a pressing plate (6).

6. An electronically controlled gun lock according to claim 4, wherein: preceding shell (1) is provided with recess (7), recess (7) are located on the symmetry axis of preceding shell (1), slip picture peg (32) overlap joint in the notch edge of recess (7), the length extending direction of recess (7) with the length extending direction of slip picture peg (32) is unanimous, the bottom surface fixedly connected with card (321) of slip picture peg (32), card (321) peg graft in recess (7), card (321) in slide in recess (7), be provided with spring (73) in recess (7), spring (73) one end fixed connection in recess (7) are kept away from the one end of socket, the other end and card (321) butt.

7. An electronically controlled gun lock according to claim 6, wherein: the lateral wall of recess (7) is connected with setting element (71), bar hole (331) have been seted up along length direction in deflector (33), deflector (33) overlap joint in the top of setting element (71), the top threaded connection of setting element (71) has screw (72), some screws rod of screw (72) leak outward in setting element (71), the screw rod part that leaks outward pass through bar hole (331) with deflector (33) sliding connection, the nut butt of screw (72) the top surface of deflector (33).

8. An electronically controlled gun lock according to claim 1, wherein: the inner wall of preceding shell (1) is fixed and is provided with a plurality of plug wire seats (8), plug wire seat (8) wear to establish single module PCB mainboard (4).