An indoor electromagnetic lock control system

By incorporating anti-accidental touch, limit, and clamping mechanisms, the problems of accidental button presses, inconvenient L-shaped covers, and loose connecting wires in indoor electromagnetic lock control systems have been solved, thus improving both safety and convenience.

CN118065716BActive Publication Date: 2026-06-30QUZHOU CITY SHENYUAN ELECTRIC CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
QUZHOU CITY SHENYUAN ELECTRIC CO LTD
Filing Date
2024-03-04
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing indoor electromagnetic lock control systems suffer from problems such as exposed buttons that are prone to accidental activation leading to misoperation, inconvenient L-shaped cover bolt fixation, and easily loosened connecting wires.

Method used

It employs an anti-accidental touch mechanism, a limiting mechanism, and a clamping mechanism, which are used to block the button, conveniently fix the L-shaped cover, and secure the connecting wire, respectively. The cooperation of the rotating rod, gear, and spring achieves the protection against accidental operation of the button, convenient installation of the L-shaped cover, and secure connection of the connecting wire.

Benefits of technology

This improves the safety of indoor electromagnetic locks, simplifies operation and maintenance, prevents misoperation and loose connections, and ensures the normal use of electromagnetic locks.

✦ Generated by Eureka AI based on patent content.

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    Figure CN118065716B_ABST
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Abstract

This invention discloses an indoor electromagnetic lock control system, relating to the field of electromagnetic lock technology. The invention includes a lock panel body, a lock body body fixedly connected to one side of the lock panel body, and a bolt body slidably inserted into the lower end of the lock body body. The lock panel body has a button body that works with the bolt body. The lock panel body and the lock body body contain a control module, a processing module, a transmission module, a drive module, and an execution module that work with the bolt body and the button body. One side of the lock panel body has an anti-accidental touch mechanism that works with the button body. One end of the lock body body has an L-shaped groove, and an L-shaped cover is detachably snapped into the L-shaped groove. The anti-accidental touch mechanism can cover and seal the button body when it is not needed, thereby preventing accidental operation and effectively improving the safety of the indoor electromagnetic lock.
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Description

Technical Field

[0001] This invention relates to the field of electromagnetic lock technology, specifically to an indoor electromagnetic lock control system. Background Technology

[0002] Indoor electromagnetic locks are interlocking devices for electrical control mechanisms that prevent maloperation of electrical components in high-voltage switchgear. They are mainly used for interlocking the front and rear cabinet doors and circuit breakers of indoor high-voltage switchgear, and are indispensable interlocking devices for power generation and supply departments.

[0003] The buttons in the existing indoor electromagnetic lock control system are exposed, making it easy for staff to accidentally press the buttons and cause misoperation, resulting in low safety. In addition, the L-shaped cover in the existing indoor electromagnetic lock control system is fixed with bolts, which is inconvenient for installation and disassembly, making it difficult for staff to operate. Furthermore, the connecting wire passing through the L-shaped cover in the existing indoor electromagnetic lock control system does not have a corresponding clamping mechanism, which can easily lead to the connecting wire being pulled accidentally, causing the connection between the connecting wire and the lock body to loosen, thus affecting the normal use of the indoor electromagnetic lock.

[0004] To address the aforementioned problems, the inventors proposed an indoor electromagnetic lock control system. Summary of the Invention

[0005] To address the problems in existing indoor electromagnetic lock control systems, such as exposed buttons leading to accidental button presses and malfunctions, L-shaped covers using bolt fixation causing inconvenience in installation and disassembly, and the risk of accidental pulling of connecting wires causing loosening of the connection between the wires and the lock body, the present invention aims to provide an indoor electromagnetic lock control system.

[0006] To solve the above-mentioned technical problems, the present invention adopts the following technical solution: an indoor electromagnetic lock control system, including a lock panel body, a lock body body fixedly connected to one side of the lock panel body, and a bolt body slidably inserted into the lower end of the lock body body for use; a button body for use with the bolt body is provided on the lock panel body; and a control module, processing module, transmission module, drive module, and execution module for use with the bolt body and the button body are provided in the lock panel body and the lock body body; an anti-accidental touch mechanism for use with the button body is provided on one side of the lock panel body. One end of the main body has an L-shaped groove, and an L-shaped cover can be detachably snapped into the L-shaped groove. Both ends of the L-shaped cover are integrally formed with limit strips, and both ends of the L-shaped groove have limit slots. The limit strips can be slidably inserted into the limit slots, and the outer diameter of the limit strips is the same as the inner diameter of the limit slots. One side of the L-shaped cover has a matching operating groove. A wire outlet hole is formed through the L-shaped cover, and the inner wall of the lock body has a limit mechanism that works with the L-shaped cover. The limit mechanism and the L-shaped cover have a clamping mechanism that works with the wire outlet hole.

[0007] Preferably, the anti-accidental touch mechanism includes two first rotating rods, which are rotatably inserted into the lock panel body. A protective frame is fixedly sleeved at the end of each first rotating rod, and the protective frame is rotatably sleeved on the outside of the button body. An L-shaped push rod is fixedly installed on the upper end of each opposite side of the protective frame, and the outer wall of the L-shaped push rod is covered with an anti-slip texture. A first spring is fixedly connected between the inner walls of the two protective frames. A first gear is fixedly sleeved on one of the first rotating rods, and a first torsion spring is fixedly installed on one side of the first gear. The first torsion spring is movably sleeved on the first rotating rod near the first gear. The end of a torsion spring is fixedly connected to the lock panel body. A second gear is fixedly sleeved on the first rotating rod, and the second gear meshes with the first gear. A second torsion spring is fixedly installed on one side of the second gear, and the second torsion spring is movably sleeved on the first rotating rod near the second gear. The end of the second torsion spring is fixedly connected to the lock panel body. A first arc plate and a second arc plate are fixedly installed on the lock panel body, and the first spring can movably contact the first arc plate and the second arc plate. The first arc plate is sleeved on the outside of the first torsion spring and the first gear, and the second arc plate is sleeved on the outside of the second torsion spring and the second gear.

[0008] Preferably, the limiting mechanism includes a second rotating rod, a first L-shaped plate, a second L-shaped plate, and a limiting insert. The second rotating rod is rotatably inserted into the lock body. A mounting countersunk hole is provided on one side of the lock body, and the end of the second rotating rod is rotatably inserted into the mounting countersunk hole and a drive wheel is fixedly connected to its end. A drive rocker is rotatably inserted into the drive wheel, and a third gear is fixedly sleeved on the end of the second rotating rod. A third torsion spring is fixedly installed on the inner wall of the third gear and is movably sleeved on the second rotating rod. The end of the third torsion spring is fixedly connected to the inner wall of the lock body, and a first rack and a second rack are meshed on the outer side of the third gear. The first L-shaped plate and the second L-shaped plate are both slidably connected to the inner wall of the lock body, and the first rack is fixedly connected to the first L-shaped plate. A limiting insert is fixedly inserted into the end of the first L-shaped plate, and a second spring is fixedly connected to one end of the limiting insert. The first side block is fixedly connected to the end of the second spring and is fixedly connected to the lock body. A first guide rod is fixedly inserted into the first side block. A first guide hole is opened on the limiting rod and the first guide rod is slidably inserted into the first guide hole. A limiting collar is fixedly sleeved on the outer side of the limiting rod. The limiting block is fixedly connected to the L-shaped cover and has a connected limiting slot and sliding groove. The limiting rod can move through the sliding groove and the limiting collar can slide in the limiting slot. The second rack is fixedly connected to the second L-shaped plate and a third spring is fixedly connected to the end of the second L-shaped plate. A second side block is fixedly connected to the end of the third spring and is fixedly connected to the inner wall of the lock body. A second guide rod is fixedly inserted into the second side block and a second guide hole is opened through the end of the second L-shaped plate and the second guide rod slides through the second guide hole.

[0009] Preferably, the clamping mechanism includes a fixed arc plate and a movable arc plate. The fixed arc plate is fixedly connected to the L-shaped cover and is used in conjunction with the cable outlet hole. A first arc-shaped rubber pad is fixedly connected to the inner wall of the fixed arc plate, and an array of first arc-shaped grooves are formed on the inner wall of the first arc-shaped rubber pad. The movable arc plate is fixedly connected to the end of the limiting rod and is used in conjunction with the fixed arc plate. A second arc-shaped rubber pad is fixedly connected to the inner wall of the movable arc plate, and an array of second arc-shaped grooves are formed on the inner wall of the second arc-shaped rubber pad.

[0010] Compared with the prior art, the beneficial effects of the present invention are as follows:

[0011] 1. By using the anti-accidental touch mechanism, the button body can be covered and sealed when it is not in use, thereby preventing staff from accidentally touching the button body and causing misoperation, thus effectively improving the safety of indoor electromagnetic locks.

[0012] 2. By using the limiting mechanism, the L-shaped cover can be conveniently limited and fixed, thus facilitating the connection and fixation between the L-shaped cover and the lock body, and making it easy to disassemble later. Compared with the traditional bolt fixing method, this application is more convenient to operate and easier for staff to use.

[0013] 3. The clamping mechanism allows for easy clamping and securing of the connecting wire passing through the outlet hole, preventing accidental pulling that could loosen the connection between the connecting wire and the lock body, thus ensuring the normal operation of the indoor electromagnetic lock. Attached Figure Description

[0014] To more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0015] Figure 1 This is a schematic diagram of the structure of the present invention.

[0016] Figure 2 This is a schematic diagram of the L-shaped cover installation in this invention.

[0017] Figure 3 For the present invention Figure 2 Enlarged schematic diagram of the structure at point A in the middle.

[0018] Figure 4 This is a schematic diagram of the connection of the anti-accidental touch mechanism in this invention.

[0019] Figure 5 For the present invention Figure 4 Enlarged schematic diagram of the structure at point B.

[0020] Figure 6 For the present invention Figure 5 Enlarged schematic diagram of the structure at point C.

[0021] Figure 7 This is a schematic diagram of the installation of the limiting mechanism in this invention.

[0022] Figure 8 For the present invention Figure 7 Enlarged schematic diagram of the structure at point D.

[0023] Figure 9 For the present invention Figure 7 Enlarged schematic diagram of the structure at point E in the middle.

[0024] Figure 10 For the present invention Figure 7 Enlarged schematic diagram of the structure at point F.

[0025] Figure 11 For the present invention Figure 7 Enlarged schematic diagram of the structure at point G.

[0026] Figure 12 This is a schematic diagram of the built-in modules in this invention.

[0027] In the diagram: 1. Lock panel body; 2. Lock body body; 21. L-shaped groove; 22. Limiting slot; 23. Mounting countersunk hole; 3. Bolt body; 4. Button body; 5. Anti-accidental activation mechanism; 51. First rotating rod; 52. Protective frame; 53. First spring; 54. First gear; 55. First torsion spring; 56. Second gear; 57. Second torsion spring; 58. First arc-shaped plate; 59. Second arc-shaped plate; 510. L-shaped push rod; 6. L-shaped cover; 61. Cable exit hole; 62. Limiting strip; 63. Operating countersunk groove; 7. Limiting mechanism; 71. Second rotating rod; 72. First L-shaped plate; 73. Second L-shaped plate; 74. Limiting insert; 75. 76. Third gear; 77. Third torsion spring; 78. First rack; 79. Second rack; 70. Limiting rod; 710. Second spring; 711. First side block; 712. Limiting collar; 713. Limiting slot; 714. Sliding groove; 715. Third spring; 716. Second side block; 717. Drive wheel; 718. Drive rocker arm; 719. First guide rod; 720. First guide hole; 721. Second guide rod; 722. Second guide hole; 81. Clamping mechanism; 82. Fixed arc plate; 83. Moving arc plate; 84. First arc rubber pad; 85. First arc groove; 86. Second arc rubber pad; 87. Second arc groove. Detailed Implementation

[0028] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0029] Example: Figure 1-12As shown, this invention provides an indoor electromagnetic lock control system, including a lock panel body 1, a lock body body 2 fixedly connected to one side of the lock panel body 1, and a bolt body 3 slidably inserted into the lower end of the lock body body 2 for use. A button body 4 for use with the bolt body 3 is provided on the lock panel body 1. A control module, processing module, transmission module, drive module, and execution module for use with the bolt body 3 and the button body 4 are provided inside the lock panel body 1 and the lock body body 2. Through the coordinated use of the bolt body 3, the button body 4, the control module, the processing module, the transmission module, the drive module, and the execution module, the locking and unlocking of the indoor electromagnetic lock can be realized. This is prior art and will not be described in detail here. An anti-accidental activation mechanism 5 for use with the button body 4 is provided on one side of the lock panel body 1, and an L-shaped groove is opened at one end of the lock body body 2. 21, and an L-shaped cover 6 is detachably snapped into the L-shaped groove 21. Both ends of the L-shaped cover 6 are integrally formed with limiting strips 62, and both ends of the L-shaped groove 21 are provided with limiting slots 22. The limiting strips 62 can be slidably inserted into the limiting slots 22, and the outer diameter of the limiting strips 62 is the same as the inner diameter of the limiting slots 22. The cooperation between the limiting strips 62 and the limiting slots 22 provides a guarantee for the stable snapping of the L-shaped cover 6 and the lock body 2. One side of the L-shaped cover 6 is provided with a cooperating operating groove 63. The setting and use of the operating groove 63 provides convenience for the easy movement of the L-shaped cover 6. A wire outlet hole 61 is provided through the L-shaped cover 6, and the inner wall of the lock body 2 is provided with a limiting mechanism 7 that cooperates with the L-shaped cover 6. The limiting mechanism 7 and the L-shaped cover 6 are provided with a clamping mechanism 8 that cooperates with the wire outlet hole 61.

[0030] The anti-accidental touch mechanism 5 includes two first rotating rods 51, which are rotatably inserted into the lock panel body 1. A protective frame 52 is fixedly sleeved at the end of each first rotating rod 51, and the protective frame 52 is rotatably sleeved on the outside of the button body 4. An L-shaped push rod 510 is fixedly installed on the upper end of each opposite side of the protective frame 52, and the outer wall of the L-shaped push rod 510 is covered with an anti-slip texture. The L-shaped push rod 510 facilitates the easy rotation of the protective frame 52. A first spring 53 is fixedly connected between the inner walls of the two protective frames 52. A first gear 54 is fixedly sleeved on one of the first rotating rods 51, and a first torsion spring 55 is fixedly installed on one side of the first gear 54. The first torsion spring 55 is movably sleeved on the first rotating rod 51 near the first gear 54, and the end of the first torsion spring 55 is fixedly attached to the lock panel body 1. A second gear 56 is fixedly sleeved on another first rotating rod 51, and the second gear 56 meshes with the first gear 54. A second torsion spring 57 is fixedly installed on one side of the second gear 56, and the second torsion spring 57 is movably sleeved on the first rotating rod 51 near the second gear 56. The end of the second torsion spring 57 is fixedly connected to the lock panel body 1. A first arc plate 58 and a second arc plate 59 are fixedly installed on the lock panel body 1, and the first spring 53 can movably contact the first arc plate 58 and the second arc plate 59. The first arc plate 58 is sleeved on the outside of the first torsion spring 55 and the first gear 54, and the second arc plate 59 is sleeved on the outside of the second torsion spring 57 and the second gear 56. The arrangement and use of the first arc plate 58 and the second arc plate 59 provide a guarantee for the stable deformation of the first spring 53, the first torsion spring 55, and the second torsion spring 57.

[0031] By adopting the above technical solution, when the button body 4 needs to be pressed, one of the L-shaped push rods 510 needs to be rotated arbitrarily, which can drive the corresponding protective frame 52 to rotate, thereby driving the corresponding first rotating rod 51 to rotate, and further driving the first gear 54 or the second gear 56 to rotate. Moreover, through the cooperation of the first gear 54 and the second gear 56, the other first rotating rod 51 can be reversed, thereby driving the other protective frame 52 to rotate, thereby synchronously twisting the first torsion spring 55 and the second torsion spring 57, and further stretching the first spring 5 3. When the included angle between the two protective frames 52 reaches its maximum, stop pushing the corresponding L-shaped push rod 510 and press the button body 4. After pressing, release the corresponding L-shaped push rod 510. At this time, the first spring 53 will drive the two protective frames 52 to reverse, and the first torsion spring 55 will drive the corresponding protective frame 52 to reverse through the cooperation of the first gear 54 and the corresponding first rotating rod 51. The second torsion spring 57 will drive the corresponding protective frame 52 to reverse through the cooperation of the second gear 56 and the corresponding first rotating rod 51, until the two protective frames 52 reverse and reset and fit together again.

[0032] The limiting mechanism 7 includes a second rotating rod 71, a first L-shaped plate 72, a second L-shaped plate 73, and a limiting block 74. The second rotating rod 71 is rotatably inserted into the lock body 2. A mounting countersunk hole 23 is provided on one side of the lock body 2, and the end of the second rotating rod 71 is rotatably inserted into the mounting countersunk hole 23 and a drive wheel 717 is fixedly connected to its end. A drive rocker arm 718 is rotatably inserted into the drive wheel 717. The cooperation between the drive rocker arm 718 and the drive wheel 717 facilitates the convenient rotation of the second rotating rod 71. A third gear 75 is fixedly sleeved on the end of the second rotating rod 71, and a fixed inner wall of the third gear 75 is... A third torsion spring 76 is installed and movably sleeved on the second rotating rod 71. The end of the third torsion spring 76 is fixedly connected to the inner wall of the lock body 2. The outer side of the third gear 75 is meshed with the first rack 77 and the second rack 78. The first L-shaped plate 72 and the second L-shaped plate 73 are both slidably connected to the inner wall of the lock body 2. The first rack 77 is fixedly connected to the first L-shaped plate 72. A limiting rod 79 is fixedly inserted into the end of the first L-shaped plate 72. A second spring 710 is fixedly connected to one end of the limiting rod 79. A first side block 711 is fixedly connected to the end of the second spring 710. The first side block 711 is connected to the lock body 2. The main body 2 is fixedly connected. A first guide rod 719 is fixedly inserted into the first side block 711. A first guide hole 720 is opened on the limiting rod 79, and the first guide rod 719 is slidably inserted into the first guide hole 720. The cooperation between the first guide rod 719 and the first guide hole 720 provides a guarantee for the stable deformation of the second spring 710. A limiting collar 712 is fixedly sleeved on the outside of the limiting rod 79. A limiting block 74 is fixedly connected to the L-shaped cover 6, and a connecting limiting slot 713 and a sliding through groove 714 are opened on the limiting block 74. The limiting rod 79 can move through the sliding through groove 714, and the limiting collar 712... The second rack 78 is slidably inserted into the limiting slot 713. It is fixedly connected to the second L-shaped plate 73, and the end of the second L-shaped plate 73 is fixedly connected to the third spring 715. The end of the third spring 715 is fixedly connected to the second side block 716, and the second side block 716 is fixedly connected to the inner wall of the lock body 2. The second guide rod 721 is fixedly inserted into the second side block 716. The end of the second L-shaped plate 73 is provided with a second guide hole 722, and the second guide rod 721 slides through the second guide hole 722. Through the cooperation of the second guide rod 721 and the second guide hole 722, the stable deformation of the third spring 715 is guaranteed.

[0033] By adopting the above technical solution, in use, the wire is connected to the lock body 2 through the L-shaped groove 21, and then the connecting wire is passed through the wire outlet hole 61 and the drive rocker 718 is rotated, which drives the drive wheel 717 to rotate, thereby driving the third gear 75 to rotate and torsion the third torsion spring 76. At the same time as the third gear 75 rotates, it drives the first rack 77 and the second rack 78 to move, thereby driving the first L-shaped plate 72 and the second L-shaped plate 73 to move towards each other, thereby driving the limiting rod 79 to move closer to the third gear 75, and further compressing the second spring 710 and the third spring 716. 5. While the limiting rod 79 moves, it will drive the limiting collar 712 to move synchronously. When the gap between the limiting rod 79 and the third gear 75 is minimized, the drive rocker 718 will stop rotating and the limiting clips 62 at both ends of the L-shaped cover 6 will be inserted into the corresponding limiting slots 22. Then, the connecting wire will be pulled from the wire outlet hole 61 to the appropriate position and the drive rocker 718 will be released. At this time, the third torsion spring 76 will drive the third gear 75 to reverse, and the second spring 710 will push the limiting rod 79 to reset and the third spring 715 will push the second L-shaped plate 73 to reset, so that the limiting collar 712 can be inserted into the limiting slot 713.

[0034] The clamping mechanism 8 includes a fixed arc plate 81 and a movable arc plate 82. The fixed arc plate 81 is fixedly connected to the L-shaped cover 6 and is used in conjunction with the cable outlet hole 61. A first arc-shaped rubber pad 83 is fixedly connected to the inner wall of the fixed arc plate 81, and an array of first arc-shaped grooves 84 are formed on the inner wall of the first arc-shaped rubber pad 83. The movable arc plate 82 is fixedly connected to the end of the limiting rod 79 and is used in conjunction with the fixed arc plate 81. A second arc-shaped rubber pad 85 is fixedly connected to the inner wall of the movable arc plate 82, and an array of second arc-shaped grooves 86 are formed on the inner wall of the second arc-shaped rubber pad 85. The use of the first arc-shaped grooves 84 and the second arc-shaped grooves 86 can effectively improve the clamping stability.

[0035] By adopting the above technical solution, when in use, the limiting plug 79 moves, which will drive the limiting collar 712 and the moving arc plate 82 to move synchronously. When the second spring 710 pushes the limiting plug 79 to reset and the third spring 715 pushes the second L-shaped plate 73 to reset, the moving arc plate 82 can be driven to move away from the third gear 75, thereby clamping and fixing the connecting wire in the first arc rubber pad 83 and the second arc rubber pad 85.

[0036] Working principle: In use, the wire is connected to the lock body 2 through the L-shaped groove 21. Then, the connecting wire is passed through the wire outlet hole 61 and the drive rocker 718 is rotated, which drives the drive wheel 717 to rotate. This drives the third gear 75 to rotate and twists the third torsion spring 76. At the same time, the rotation of the third gear 75 drives the first rack 77 and the second rack 78 to move, which drives the first L-shaped plate 72 and the second L-shaped plate 73 to move towards each other. This drives the limiting rod 79 to move closer to the third gear 75, which further compresses the second spring 710 and the third spring 715. At the same time as the limiting rod 79 moves, the limiting collar 712 and the moving arc plate 82 move synchronously. When the limiting rod 79 and the third gear 715 move together, the limiting ring 712 and the moving arc plate 82 move synchronously. When the gap between the three gears 75 is moved to the minimum, stop rotating the drive rocker 718 and insert the limiting clips 62 at both ends of the L-shaped cover 6 into the corresponding limiting slots 22. Then, pull the connecting wire from the wire outlet hole 61 to the appropriate position and release the drive rocker 718. At this time, the third torsion spring 76 will drive the third gear 75 to reverse, and the second spring 710 will push the limiting plug 79 to reset, and the third spring 715 will push the second L-shaped plate 73 to reset. This will drive the moving arc plate 82 to move away from the third gear 75, so that the limiting collar 712 can be inserted into the limiting slot 713, and the connecting wire can be clamped and fixed in the first arc rubber pad 83 and the second arc rubber pad 85. Then, the indoor electromagnetic lock is installed and put into use.

[0037] During use, when the button body 4 needs to be pressed, one of the L-shaped push rods 510 needs to be rotated arbitrarily, which will drive the corresponding protective frame 52 to rotate, which in turn will drive the corresponding first rotating rod 51 to rotate, which will further drive the first gear 54 or the second gear 56 to rotate. Furthermore, the cooperation of the first gear 54 and the second gear 56 can drive the other first rotating rod 51 to reverse, which will drive the other protective frame 52 to reverse, thus simultaneously twisting the first torsion spring 55 and the second torsion spring 57, further stretching the first spring 53. When the included angle between the two protective frames 52 reaches its maximum, stop pushing the corresponding L-shaped push rod 510 and press the button body 4. After pressing, release the corresponding L-shaped push rod 510. At this time, the first spring 53 will drive the two protective frames 52 to reverse, and the first torsion spring 55 will drive the corresponding protective frame 52 to reverse through the cooperation of the first gear 54 and the corresponding first rotating rod 51. The second torsion spring 57 will drive the corresponding protective frame 52 to reverse through the cooperation of the second gear 56 and the corresponding first rotating rod 51, until the two protective frames 52 reverse and reset and fit together again.

[0038] Obviously, those skilled in the art can make various modifications and variations to this invention without departing from its spirit and scope. Therefore, if these modifications and variations fall within the scope of the claims of this invention and their equivalents, this invention also intends to include these modifications and variations.

Claims

1. An indoor electromagnetic lock control system, comprising a lock panel body (1), characterized in that: A lock body body (2) is fixedly connected to one side of the lock panel body (1), and a bolt body (3) is slidably inserted into the lower end of the lock body body (2). A button body (4) is provided on the lock panel body (1) to cooperate with the bolt body (3). A control module, processing module, transmission module, drive module, and execution module are provided inside the lock panel body (1) and the lock body body (2) to cooperate with the bolt body (3) and the button body (4). A button body (4) is provided on one side of the lock panel body (1). There is an anti-accidental touch mechanism (5) that works with the button body (4). One end of the lock body (2) is provided with an L-shaped groove (21), and an L-shaped cover (6) is detachably snapped into the L-shaped groove (21). A wire outlet hole (61) is provided through the L-shaped cover (6), and a limiting mechanism (7) that works with the L-shaped cover (6) is provided on the inner wall of the lock body (2). The limiting mechanism (7) and the L-shaped cover (6) are provided with a clamping mechanism (8) that works with the wire outlet hole (61). The limiting mechanism (7) includes a second rotating rod (71), a first L-shaped plate (72), a second L-shaped plate (73), and a limiting insert (74). The second rotating rod (71) is rotatably inserted into the lock body (2), and a third gear (75) is fixedly sleeved at the end of the second rotating rod (71). A third torsion spring (76) is fixedly installed on the inner wall of the third gear (75), and the third torsion spring (76) is movably sleeved on the second rotating rod (71). The end of the third gear (76) is fixedly connected to the inner wall of the lock body (2), and the outer side of the third gear (75) is meshed with the first rack (77) and the second rack (78). The first L-shaped plate (72) and the second L-shaped plate (73) are both slidably connected to the inner wall of the lock body (2), and the first rack (77) is fixedly connected to the first L-shaped plate (72). The end of the first L-shaped plate (72) is fixedly inserted with a limiting rod (79), and one end of the limiting rod (79) is... A second spring (710) is fixedly connected, and a first side block (711) is fixedly connected to the end of the second spring (710). The first side block (711) is fixedly connected to the lock body (2). A limit ring (712) is fixedly sleeved on the outer side of the limit rod (79). The limit block (74) is fixedly connected to the L-shaped cover (6). The limit block (74) is provided with a connecting limit slot (713) and a sliding through groove (714). The insertion rod (79) can move through the sliding through groove (714), and the limiting collar (712) can slide into the limiting slot (713). The second rack (78) is fixedly connected to the second L-shaped plate (73), and the end of the second L-shaped plate (73) is fixedly connected to the third spring (715). The end of the third spring (715) is fixedly connected to the second side block (716), and the second side block (716) is fixedly connected to the inner wall of the lock body (2). The clamping mechanism (8) includes a fixed arc plate (81) and a movable arc plate (82). The fixed arc plate (81) is fixedly connected to the L-shaped cover (6) and is used in conjunction with the cable outlet hole (61). A first arc-shaped rubber pad (83) is fixedly connected to the inner wall of the fixed arc plate (81), and an array of first arc-shaped grooves (84) are opened on the inner wall of the first arc-shaped rubber pad (83). The movable arc plate (82) is fixedly connected to the end of the limiting rod (79), and the movable arc plate (82) is used in conjunction with the fixed arc plate (81). A second arc-shaped rubber pad (85) is fixedly connected to the inner wall of the movable arc plate (82), and an array of second arc-shaped grooves (86) are opened on the inner wall of the second arc-shaped rubber pad (85). The anti-accidental touch mechanism (5) includes a first rotating rod (51), two of which are provided. The first rotating rod (51) is rotatably inserted into the lock panel body (1). A protective frame (52) is fixedly sleeved at the end of the first rotating rod (51), and the protective frame (52) is rotatably sleeved on the outside of the button body (4). A first spring (53) is fixedly connected between the inner walls of the two protective frames (52). A first gear (54) is fixedly sleeved on one of the first rotating rods (51), and a first torsion spring (55) is fixedly installed on one side of the first gear (54). The first torsion spring (55) is movably sleeved on the first rotating rod (51) near the first gear (54), and the end of the first torsion spring (55) is fixedly connected to the lock panel body (1). The other first rotating rod (51) is fixedly sleeved with a second gear (56), and the second gear (56) meshes with the first gear (54). A second torsion spring (57) is fixedly installed on one side of the second gear (56), and the second torsion spring (57) is movably sleeved on the first rotating rod (51) near the second gear (56). The end of the second torsion spring (57) is fixedly connected to the lock panel body (1).

2. The indoor electromagnetic lock control system as described in claim 1, characterized in that, The lock panel body (1) is fixedly installed with a first arc plate (58) and a second arc plate (59), and the first spring (53) can move in contact with the first arc plate (58) and the second arc plate (59). The first arc plate (58) is sleeved on the outside of the first torsion spring (55) and the first gear (54), and the second arc plate (59) is sleeved on the outside of the second torsion spring (57) and the second gear (56).

3. The indoor electromagnetic lock control system as described in claim 1, characterized in that, The upper part of the opposite side of the protective frame (52) is fixedly installed with an L-shaped push rod (510), and the outer wall of the L-shaped push rod (510) is covered with a layer of anti-slip texture.

4. The indoor electromagnetic lock control system as described in claim 1, characterized in that, Both ends of the L-shaped cover (6) are integrally formed with a limiting strip (62), and both ends of the L-shaped groove (21) are provided with a limiting groove (22). The limiting strip (62) can be slidably inserted into the limiting groove (22), and the outer diameter of the limiting strip (62) is the same as the inner diameter of the limiting groove (22). A matching operating groove (63) is provided on one side of the L-shaped cover (6).

5. The indoor electromagnetic lock control system as described in claim 1, characterized in that, The lock body (2) has a mounting countersunk hole (23) on one side, and the end of the second rotating rod (71) is rotatably inserted into the mounting countersunk hole (23) and a drive wheel (717) is fixedly connected to its end. A drive rocker arm (718) is rotatably inserted into the drive wheel (717).

6. The indoor electromagnetic lock control system as described in claim 1, characterized in that, A first guide rod (719) is fixedly inserted into the first side block (711), and a first guide hole (720) is opened on the limiting rod (79), and the first guide rod (719) is slidably inserted into the first guide hole (720).

7. The indoor electromagnetic lock control system as described in claim 1, characterized in that, A second guide rod (721) is fixedly inserted into the second side block (716), and a second guide hole (722) is opened through the end of the second L-shaped plate (73), and the second guide rod (721) slides through the second guide hole (722).