A high-protection hidden network security monitoring device

By combining a concealed outer shell with a buffer, heat dissipation, and adsorption fixing device, the problem of network security monitoring devices being easily damaged by external impacts is solved, achieving efficient protection and heat dissipation.

CN115315113BActive Publication Date: 2026-07-07TAISHAN UNIV

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
TAISHAN UNIV
Filing Date
2022-09-06
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing network security monitoring devices are easily damaged by impacts and collisions from external objects during use, affecting their normal operation.

Method used

The device features a concealed housing design, combined with a U-shaped buffer plate, heat dissipation protection device, impact buffer device, and adsorption fixing device. The concealed housing protects the main body of the network security monitoring device, buffers the impact force of foreign objects, and improves the heat dissipation effect through the cooling fan and buffer device.

Benefits of technology

This effectively prevents external objects from directly impacting the main body of the network security monitoring device, reducing the risk of damage, improving heat dissipation efficiency, and reducing the risk of the device falling. At the same time, it removes dust and ensures the normal operation of the device.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This invention discloses a highly protected concealed network security monitoring device, belonging to the technical field of network security monitoring devices. The invention includes a concealed outer shell and a main body for the network security monitoring device. The main body is disposed inside the concealed outer shell. A cover plate is hinged to the top of the concealed outer shell, and a cooling fan is fixed to the bottom of the concealed outer shell. Ventilation vents are provided on all four side walls of the concealed outer shell. U-shaped buffer plates are slidably installed on all four side walls of the inner wall of the concealed outer shell, and a buffer spring plate is provided between the U-shaped buffer plates and the inner wall of the concealed outer shell. This invention, through the concealed outer shell, protects the main body of the network security monitoring device, thereby preventing direct impact from external objects and damage to the main body.
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Description

Technical Field

[0001] This invention relates to the field of network security monitoring device technology, specifically a highly protected, concealed network security monitoring device. Background Technology

[0002] The internet is widely used across all industries, and people are becoming increasingly aware of internet information security. In order to effectively prevent information leakage, network security monitoring devices are generally used to monitor network security during internet use.

[0003] Most existing network security monitoring devices are used in direct exposure, making them susceptible to damage from impacts and collisions, which can affect their normal operation. Therefore, we propose a highly protected, concealed network security monitoring device. Summary of the Invention

[0004] To address the shortcomings of existing technologies, this invention provides a highly protected concealed network security monitoring device, which solves the problem that most network security monitoring devices mentioned in the background are directly exposed and easily damaged by impacts and collisions from external objects, thus affecting their normal use.

[0005] To achieve the above objectives, the present invention provides the following technical solution: a highly protected concealed network security monitoring device, comprising a concealed outer shell and a network security monitoring device body. The network security monitoring device body is disposed inside the concealed outer shell. A cover plate is hinged to the top of the concealed outer shell. The concealed outer shell protects the network security monitoring device body, thereby preventing direct impact from external objects and damage to the network security monitoring device body. A cooling fan is fixed to the bottom of the concealed outer shell, and ventilation openings are provided on all four side walls of the concealed outer shell. The concealed housing has U-shaped buffer plates slidably installed on all four sides of its inner wall. A buffer spring plate is provided between the U-shaped buffer plate and the inner wall of the concealed housing. The side of the U-shaped buffer plate away from the inner wall of the concealed housing contacts the outer wall of the main body of the network security monitoring device. A slot is provided on the top side of the concealed housing, and a buckle matching the slot of the concealed housing is provided on one side of the cover plate. Under the elastic force of the buffer spring plate, the buffer spring plate drives the U-shaped buffer plate to buffer the impact force on the main body of the network security monitoring device, thereby further protecting the main body of the network security monitoring device.

[0006] Preferably, a heat dissipation protection device is provided on the inner side of the heat dissipation vent. The heat dissipation protection device includes a swing plate, an inclined push plate, and a contact rod. The middle part of the swing plate is hinged to the inner wall of the heat dissipation vent, and a torsion spring is provided between the swing plate and the inner wall of the heat dissipation vent. Inclined slot plates are fixed on both the front and back of the top of the side of the swing plate near the main body of the network security monitoring device. A fixing column is slidably installed inside the inclined slot plate. The middle part of the fixing column is fixed to a U-shaped plate. The U-shaped plate passes through and is slidably installed on the bottom of the inner wall of the concealed housing. The inclined push plate is slidably installed on the bottom of the concealed housing. The inclined push plate passes through the outer wall of the cooling fan. One end of the inclined push plate is inclined. The device is configured with a sloping push plate whose sloping surface is slidably connected to the bottom of the inner wall of the U-shaped plate. The other end of the sloping push plate is diamond-shaped, and the contact rod is fixed to the outside of the cooling fan shaft. The diamond-shaped surface of the sloping push plate contacts the end of the contact rod away from the cooling fan. The contact rod pushes the diamond-shaped surface of the sloping push plate to move the sloping push plate away from the cooling fan. The sloping surface of the sloping push plate pushes the bottom of the inner wall of the U-shaped plate to move the U-shaped plate downward. The U-shaped plate causes the fixed column to slide along the inside of the inclined groove plate and causes the inclined groove plate to swing downward. The inclined groove plate causes the swing plate to flip, thereby increasing the opening size of the heat dissipation port and improving the heat dissipation effect of the main body of the network security monitoring device.

[0007] Preferably, an impact buffer device is provided below the swing plate. The impact buffer device includes a magnetic plate, which is slidably installed through and on the bottom of the swing plate. A spring is provided between the magnetic plate and the inner wall of the swing plate. A mesh plate is fixed to the bottom of the magnetic plate. An arc-shaped convex ball spring is fixed to the bottom of the mesh plate on the side closest to the main body of the network security monitoring device. A striking rod is fixed to the side of the arc-shaped convex ball spring near the mesh plate. The end of the striking rod away from the arc-shaped convex ball spring contacts the outer wall of the mesh plate. A convex ball block is fixed to one end of the plate, and a protrusion is fixed to the side of the swing plate near the main body of the network security monitoring device. The convex ball block of the arc-shaped convex ball spring rod contacts the protrusion of the swing plate. Under the action of the spring force corresponding to the magnetic plate, the magnetic plate and the mesh plate buffer the impact force of the external object. At the same time, the mesh plate drives the convex ball block of the arc-shaped convex ball spring rod to abut against the protrusion of the swing plate, thereby canceling the impact force of the external object. Meanwhile, the arc-shaped convex ball spring rod drives the striking rod to strike the mesh plate, causing the mesh plate to vibrate and shake off the dust attached to it.

[0008] Preferably, each of the four corners of the concealed housing is equipped with an adsorption and fixing device. The adsorption and fixing device includes a fixing shell, which is embedded in the bottom of the concealed housing. A threaded rod is rotatably installed inside the fixing shell, and the threaded rod extends to the top of the concealed housing. A magnetic block is threadedly connected to the outer side of the threaded rod, and the magnetic block is slidably installed on the inner wall of the fixing shell. A suction cup is fixed to the bottom of the inner wall of the fixing shell. The threaded rod drives the magnetic block to move upward along the inner wall of the fixing shell, and the suction cup generates an adsorption force on the outer plate of the concealed housing, thereby achieving the purpose of auxiliary fixing of the main body of the network security monitoring device, thereby reducing the risk of the main body of the network security monitoring device falling to the ground due to impact from external objects.

[0009] Preferably, the magnetic block and the magnetic plate repel each other. At the same time, under the magnetic repulsion between the magnetic block and the magnetic plate, the magnetic plate tends to move away from the swing plate, thereby improving the buffering effect of the magnetic plate on the impact force of external objects.

[0010] This invention provides a highly protected, concealed network security monitoring device. It offers the following advantages:

[0011] (1) The present invention provides a hidden shell, which protects the main body of the network security monitoring device, thereby avoiding the problem of damage to the main body of the network security monitoring device caused by direct impact of foreign objects. At the same time, under the elastic force of the buffer plate, the buffer plate drives the U-shaped buffer plate to buffer the impact force on the main body of the network security monitoring device.

[0012] (2) By setting up a heat dissipation protection device, the present invention enables the contact rod to push the rhomboid surface of the inclined push plate to move the inclined push plate away from the heat dissipation fan. The inclined surface of the inclined push plate pushes the bottom of the inner wall of the spiral plate to move the spiral plate downward. The spiral plate drives the fixed column to slide along the inside of the inclined groove plate and drives the inclined groove plate to swing downward. The inclined groove plate drives the swing plate to flip, thereby increasing the opening size of the heat dissipation port and thus improving the heat dissipation effect of the main body of the network security monitoring device.

[0013] (3) The present invention uses an impact buffer device to buffer the impact force of the magnetic plate and the mesh plate on the external object. At the same time, the mesh plate drives the convex ball block of the arc-shaped convex ball spring rod to abut against the convex block of the swing plate, thereby canceling the impact force of the external object. Meanwhile, the arc-shaped convex ball spring rod drives the striking rod to strike the mesh plate, and the mesh plate vibrates and shakes off the dust attached to it.

[0014] (4) By setting up an adsorption fixing device, the threaded rod drives the magnetic block to move upward along the inner wall of the fixing shell, and the suction cup generates a suction force on the outer plate of the hidden shell, thereby achieving the purpose of auxiliary fixing of the main body of the network security monitoring device, thereby reducing the risk of the main body of the network security monitoring device falling to the ground due to the impact of external objects. At the same time, under the magnetic repulsion between the magnetic block and the magnetic plate, the magnetic plate tends to move away from the swing plate, thereby improving the buffering effect of the magnetic plate on the impact force of external objects. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the entire invention;

[0016] Figure 2 This is a bottom view schematic diagram of the entire invention;

[0017] Figure 3 This is a partial cross-sectional schematic diagram of the entire invention;

[0018] Figure 4 This is a partial structural schematic diagram of the concealed outer shell of the present invention;

[0019] Figure 5 This is a schematic diagram of the heat dissipation and protection device of the present invention;

[0020] Figure 6 This is a schematic diagram of the impact buffer device of the present invention;

[0021] Figure 7 This is a partial cross-sectional schematic diagram of the adsorption and fixation device of the present invention.

[0022] In the diagram: 1. Concealed outer shell; 11. Heat dissipation vent; 12. U-shaped buffer plate; 13. Buffer spring plate; 2. Box cover plate; 3. Main body of network security monitoring device; 4. Cooling fan; 5. Heat dissipation protection device; 51. Swing plate; 52. Inclined slot plate; 53. U-shaped plate; 54. Fixing column; 55. Inclined push plate; 56. Abutting rod; 6. Adsorption fixing device; 61. Fixing shell; 62. Threaded rod; 63. Magnetic block; 64. Suction cup; 7. Impact buffer device; 71. Magnetic plate; 72. Mesh plate; 73. Arc-shaped convex ball spring rod; 74. Striking rod. Detailed Implementation

[0023] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments.

[0024] Please see Figure 1-7This invention provides a technical solution: a highly protected concealed network security monitoring device, comprising a concealed outer shell 1 and a network security monitoring device body 3. The network security monitoring device body 3 is disposed inside the concealed outer shell 1. A cover plate 2 is hinged to the top of the concealed outer shell 1. The concealed outer shell 1 protects the network security monitoring device body 3, thereby preventing foreign objects from directly impacting the network security monitoring device body 3 and causing damage. A cooling fan 4 is fixed to the bottom of the concealed outer shell 1, and heat dissipation vents 11 are provided on all four side walls of the concealed outer shell 1. U-shaped buffer plates 12 are slidably installed on all four sides of the inner wall. A buffer spring plate 13 is provided between the U-shaped buffer plate 12 and the inner wall of the concealed housing 1. The side of the U-shaped buffer plate 12 away from the inner wall of the concealed housing 1 contacts the outer wall of the network security monitoring device body 3. A slot is provided on the top side of the concealed housing 1, and a buckle matching the slot of the concealed housing 1 is provided on one side of the cover plate 2. Under the elastic force of the buffer spring plate 13, the buffer spring plate 13 drives the U-shaped buffer plate 12 to buffer the impact force on the network security monitoring device body 3, thereby further protecting the network security monitoring device body 3.

[0025] A heat dissipation protection device 5 is provided on the inner side of the heat dissipation vent 11. The heat dissipation protection device 5 includes a swing plate 51, an inclined push plate 55, and an abutment rod 56. The middle part of the swing plate 51 is hinged to the inner wall of the heat dissipation vent 11, and a torsion spring is provided between the swing plate 51 and the inner wall of the heat dissipation vent 11. An inclined groove plate 52 is fixed on the top front and back of the side of the swing plate 51 near the main body 3 of the network security monitoring device. A fixing column 54 is slidably installed inside the inclined groove plate 52. The middle part of the fixing column 54 is fixed on the U-shaped plate 53. The U-shaped plate 53 passes through and is slidably installed on the bottom of the inner wall of the concealed housing 1. The inclined push plate 55 is slidably installed on the bottom of the concealed housing 1. The inclined push plate 55 passes through the outer wall of the cooling fan 4. One end of the inclined push plate 55 is inclined. The inclined surface of plate 55 is slidably connected to the bottom of the inner wall of the U-shaped plate 53. The other end of the inclined push plate 55 is diamond-shaped. The contact rod 56 is fixed to the outside of the rotating shaft of the cooling fan 4. The diamond-shaped surface of the inclined push plate 55 contacts the end of the contact rod 56 away from the cooling fan 4. The contact rod 56 pushes the diamond-shaped surface of the inclined push plate 55 to move the inclined push plate 55 away from the cooling fan 4. The inclined surface of the inclined push plate 55 pushes the bottom of the inner wall of the U-shaped plate 53 to move the U-shaped plate 53 downward. The U-shaped plate 53 drives the fixed column 54 to slide along the inside of the inclined groove plate 52 and drives the inclined groove plate 52 to swing downward. The inclined groove plate 52 drives the swing plate 51 to flip, thereby increasing the opening size of the heat dissipation port 11 and improving the heat dissipation effect of the main body 3 of the network security monitoring device.

[0026] An impact buffer device 7 is provided below the swing plate 51. The impact buffer device 7 includes a magnetic plate 71, which is slidably installed through and on the bottom of the swing plate 51. A spring is provided between the magnetic plate 71 and the inner wall of the swing plate 51. A mesh plate 72 is fixed to the bottom of the magnetic plate 71. An arc-shaped convex ball spring rod 73 is fixed to the bottom of the mesh plate 72 near the main body 3 of the network security monitoring device. A striking rod 74 is fixed to the side of the arc-shaped convex ball spring rod 73 near the mesh plate 72. The end of the striking rod 74 away from the arc-shaped convex ball spring rod 73 contacts the outer wall of the mesh plate 72. One end is fixed with a convex ball block, and the side of the swing plate 51 near the main body 3 of the network security monitoring device is fixed with a protrusion. The convex ball block of the arc-shaped convex ball spring rod 73 contacts the protrusion of the swing plate 51. Under the action of the spring force corresponding to the magnetic plate 71, the magnetic plate 71 and the mesh plate 72 buffer the impact force of the external object. At the same time, the mesh plate 72 drives the convex ball block of the arc-shaped convex ball spring rod 73 to collide with the protrusion of the swing plate 51, thereby canceling the impact force of the external object. At the same time, the arc-shaped convex ball spring rod 73 drives the striking rod 74 to strike the mesh plate 72, and the mesh plate 72 vibrates and shakes off the dust attached to it.

[0027] Adsorption and fixing devices 6 are provided at each of the four corners of the concealed housing 1. The adsorption and fixing device 6 includes a fixing shell 61, which is embedded in the bottom of the concealed housing 1. A threaded rod 62 is rotatably installed inside the fixing shell 61 and extends to the top of the concealed housing 1. A magnetic block 63 is threadedly connected to the outer side of the threaded rod 62. The magnetic block 63 is slidably installed on the inner wall of the fixing shell 61. A suction cup 64 is fixed at the bottom of the inner wall of the fixing shell 61. The threaded rod 62 drives the magnetic block 63 to move upward along the inner wall of the fixing shell 61. The suction cup 64 generates a suction force on the outer plate of the concealed housing 1, thereby achieving the purpose of auxiliary fixing of the main body 3 of the network security monitoring device. This reduces the risk of the main body 3 of the network security monitoring device falling to the ground due to impact from external objects. The magnetic block 63 and the magnetic plate 71 repel each other. At the same time, under the magnetic repulsion between the magnetic block 63 and the magnetic plate 71, the magnetic plate 71 tends to move away from the swing plate 51, thereby improving the buffering effect of the magnetic plate 71 against the impact of external objects.

[0028] In use, when the main body 3 of the network security monitoring device is impacted by an external object, the concealed outer shell 1 will protect the main body 3 of the network security monitoring device, thereby avoiding the problem of the main body 3 of the network security monitoring device being damaged by the direct impact of the external object. At the same time, under the elastic force of the buffer plate 13, the buffer plate 13 drives the U-shaped buffer plate 12 to buffer the impact force on the main body 3 of the network security monitoring device, thereby further protecting the main body 3 of the network security monitoring device. Meanwhile, the cooling fan 4 can be activated to dissipate heat from the main body 3 of the network security monitoring device.

[0029] When the cooling fan 4 rotates, the shaft of the cooling fan 4 drives the contact rod 56 to rotate synchronously. The contact rod 56 pushes the rhomboid surface of the inclined push plate 55, causing the inclined push plate 55 to move away from the cooling fan 4. The inclined surface of the inclined push plate 55 pushes the bottom of the inner wall of the U-shaped plate 53, causing the U-shaped plate 53 to move downward. The U-shaped plate 53 causes the fixed column 54 to slide along the inside of the inclined groove plate 52 and causes the inclined groove plate 52 to swing downward. The inclined groove plate 52 causes the swing plate 51 to flip, thereby increasing the opening size of the heat dissipation port 11 and improving the heat dissipation effect of the main body 3 of the network security monitoring device. At the same time, when the cooling fan 4 is not in use, the swing plate 51 blocks the heat dissipation port 11, thereby preventing external dust from entering the hidden shell 1 and affecting the operation of the main body 3 of the network security monitoring device.

[0030] When the main body 3 of the network security monitoring device is in a heat dissipation state and is impacted by an external object, the magnetic plate 71 and the mesh plate 72 are buffered by the spring force corresponding to the magnetic plate 71. At the same time, the magnetic plate 71 and the mesh plate 72 retract into the swing plate 51. The mesh plate 72 drives the arc-shaped convex ball spring rod 73 to move synchronously. The convex ball block of the arc-shaped convex ball spring rod 73 abuts against the protrusion of the swing plate 51, thereby canceling out the impact force of the external object. At the same time, the arc-shaped convex ball spring rod 73 drives the striking rod 74 away from the mesh plate 72. When the convex ball block of the arc-shaped convex ball spring rod 73 no longer abuts against the protrusion of the swing plate 51, the arc-shaped convex ball spring rod 73 drives the striking rod 74 to strike the mesh plate 72 under its own elastic force. The mesh plate 72 vibrates and shakes off the dust attached to it.

[0031] After the concealed housing 1 is placed, the threaded rod 62 is rotated. The threaded rod 62 drives the magnetic block 63 to move upward along the inner wall of the fixed housing 61. The suction cup 64 generates a suction force on the outer plate of the concealed housing 1, thereby achieving the purpose of auxiliary fixation of the main body 3 of the network security monitoring device. This reduces the risk of the main body 3 of the network security monitoring device falling to the ground due to impact from external objects. At the same time, under the magnetic repulsion between the magnetic block 63 and the magnetic plate 71, the magnetic plate 71 tends to move away from the swing plate 51, thereby improving the buffering effect of the magnetic plate 71 against the impact of external objects.

[0032] The above description is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in the present invention, based on the technical solution and inventive concept of the present invention, should be covered within the scope of protection of the present invention.

Claims

1. A highly protected concealed network security monitoring device, comprising a concealed housing (1) and a network security monitoring device body (3), wherein the network security monitoring device body (3) is disposed inside the concealed housing (1), characterized in that: The top of the concealed housing (1) is hinged with a cover plate (2), and the bottom of the concealed housing (1) is fixed with a heat dissipation fan (4). Heat dissipation vents (11) are provided on all four side walls of the concealed housing (1). U-shaped buffer plates (12) are slidably installed on all four side walls of the inner wall of the concealed housing (1). A buffer spring plate (13) is provided between the U-shaped buffer plate (12) and the inner wall of the concealed housing (1). The side of the U-shaped buffer plate (12) away from the inner wall of the concealed housing (1) is in contact with the outer wall of the network security monitoring device body (3). A heat dissipation protection device (5) is provided on the inner side of the heat dissipation vent (11). The heat dissipation protection device (5) includes a swing plate (51), an inclined push plate (55) and a contact rod (56). The middle part of the swing plate (51) is hinged to the inner wall of the heat dissipation vent (11), and a torsion spring is provided between the swing plate (51) and the inner wall of the heat dissipation vent (11). The top front and back sides of the swing plate (51) near the main body (3) of the network security monitoring device are fixed with inclined slot plates (52). A fixing column (54) is slidably installed inside the inclined slot plate (52). The middle part of the fixing column (54) is fixed on the U-shaped plate (53). The U-shaped plate (53) penetrates and is slidably installed on the bottom of the inner wall of the hidden shell (1). The inclined push plate (55) is slidably installed on the bottom of the hidden shell (1). The inclined push plate (55) penetrates the outer wall of the heat dissipation fan (4). One end of the inclined push plate (55) is inclined, and the inclined surface of the inclined push plate (55) is slidably connected to the bottom of the inner wall of the U-shaped plate (53). The other end of the inclined push plate (55) is diamond-shaped. The contact rod (56) is fixed on the outside of the rotating shaft of the cooling fan (4). The diamond-shaped surface of the inclined push plate (55) contacts the end of the contact rod (56) away from the cooling fan (4). An impact buffer device (7) is provided below the swing plate (51). The impact buffer device (7) includes a magnetic plate (71). The magnetic plate (71) is slidably installed through and on the bottom of the swing plate (51). A spring is provided between the magnetic plate (71) and the inner wall of the swing plate (51). A mesh plate (72) is fixed to the bottom of the magnetic plate (71). An arc-shaped convex ball spring rod (73) is fixed to the bottom of the mesh plate (72) on the side close to the main body (3) of the network security monitoring device. A striking rod (74) is fixed to the side of the arc-shaped convex ball spring rod (73) close to the mesh plate (72). The end of the striking rod (74) away from the arc-shaped convex ball spring rod (73) contacts the outer wall of the mesh plate (72). The arc-shaped convex ball spring rod (73) has a convex ball block fixed at one end away from the mesh plate (72), and the swing plate (51) has a protrusion fixed on the side close to the main body (3) of the network security monitoring device. The convex ball block of the arc-shaped convex ball spring rod (73) is in contact with the protrusion of the swing plate (51).

2. The highly protected concealed network security monitoring device according to claim 1, characterized in that: The top side of the concealed housing (1) is provided with a slot, and the side of the cover plate (2) is provided with a buckle that matches the slot of the concealed housing (1).

3. The highly protected concealed network security monitoring device according to claim 2, characterized in that: The concealed housing (1) is provided with an adsorption fixing device (6) at each of its four corners. The adsorption fixing device (6) includes a fixing shell (61) which is embedded in the bottom of the concealed housing (1). A threaded rod (62) is rotatably installed inside the fixing shell (61). The threaded rod (62) extends to the top of the concealed housing (1). A magnetic block (63) is threadedly connected to the outside of the threaded rod (62). The magnetic block (63) is slidably installed on the inner wall of the fixing shell (61). A suction cup (64) is fixed at the bottom of the inner wall of the fixing shell (61).

4. The highly protected concealed network security monitoring device according to claim 3, characterized in that: The magnetic block (63) and the magnetic plate (71) repel each other.