CN113597195A - Network security monitoring system for thermal power plant industrial control system based on 5G technology - Google Patents

Abstract

The invention discloses a network safety monitoring system for a thermal power plant industrial control system based on a 5G technology, the invention can press the swinging piece when sucking air flow and release the elasticity when the filter cover is blocked, then the impact block on the swinging sheet moving forwards quickly impacts the contact block and outputs the vibration generated by the impact to the filter cover, so that the filter cover can repeatedly swing under the action of the swinging head, and can rebound and rebound through the rebound effect of the impact ball to perform multiple impacts, therefore, a large amount of soot adhered to the filter cover can be cleaned, and the temperature inside the monitoring system is suitable for normal work.

Description

Network security monitoring system for thermal power plant industrial control system based on 5G technology

Technical Field

The invention relates to the field of safety, in particular to a network safety monitoring system for a thermal power plant industrial control system based on a 5G technology.

Background

5G is a latest generation mobile network communication technology, compared with the last generation transmission speed, the transmission speed is greatly improved, remote real-time monitoring and the like can be carried out through the 5G fast transmission speed, a thermal power plant generates heat and boils water through burning coal and other substances, a generator is pushed to operate through generated steam, when the 5G network is used for controlling the interior of the thermal power plant, the network is protected from being attacked through a network security monitoring system, errors of a control program of the thermal power plant caused by malicious damage are avoided, the network security monitoring system receives and analyzes input signals and then outputs the input signals to an industrial control system of the thermal power plant, the input signals are not malicious signals, wherein core parts in the monitoring system can generate large heat due to calculation when the signals are analyzed, and the temperature in the thermal power plant is high, therefore, a strong heat dissipation function is needed for supporting, but because the quantity of soot in the thermal power plant is large, the air inlet is easily blocked by a large quantity of soot in the heat dissipation process, the air intake quantity is reduced, the air intake quantity needs to be cleaned manually frequently, otherwise, the working efficiency of the monitoring system is easily reduced or even the dead halt phenomenon is caused due to the fact that heat cannot be dissipated.

Disclosure of Invention

Aiming at the problems, the invention provides a network safety monitoring system for a thermal power plant industrial control system based on a 5G technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a network security monitored control system for thermal power plant's industrial control system based on 5G technique, its structure includes base, organism, radiating block, control cabinet, signal rod, base top surface and organism bottom surface welded connection, the radiating block imbeds in the organism openly, the control cabinet back openly inlays with the organism and fixes and be connected, the signal rod is embedded into in the organism openly by the shop front.

Furthermore, the radiating block includes filter mantle, swing head, contact block, input tube, swing piece, sliding tray, the filter mantle top surface is connected with the first bottom surface of swing inlays admittedly, contact block left side and filter mantle right side are inlayed admittedly and are connected, the input tube inner layer is the shaping of integration with the sliding tray, lower extreme swing joint on sliding tray inner layer and the swing piece, the input tube left side is connected with the filter mantle right side inlays admittedly.

Furthermore, the swinging piece comprises a connecting plate, a pressure head, an impact groove, an impact block and a pressure spring, the bottom surface of the connecting plate is fixedly embedded with the top surface of the pressure head, the impact groove and the inside of the connecting plate are integrally formed, the upper surface and the lower surface of the impact block are fixedly embedded in the inner layer of the connecting plate, and the left end of the pressure spring is welded on the right side of the pressure head.

Furthermore, the impact block comprises a connecting piece, a swinging strip, a base block, a stress application spring and an impact ball, the bottom surface of the connecting piece is fixedly connected with the top end of the swinging strip, the bottom end of the swinging strip is fixedly connected with the top surface of the base block, the inner layer of the base block is movably connected with the outer layer of the impact ball, and the right side of the outer layer of the impact ball is fixedly connected with the inner layer of the base block through the stress application spring.

Furthermore, the striking ball is of a hollow ball structure made of elastic rubber materials.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

the invention can press the swinging sheet internally when the airflow is pumped, and lead the elastic force to be released when the filter cover is blocked, so that the impact block on the swinging sheet moving forwards quickly impacts the contact block, and outputs the vibration generated by impact to the filter cover, so that the filter cover can repeatedly swing under the action of the swinging head, and rebounds through the rebounding effect of the impact ball, and the impact is carried out for multiple times, thereby cleaning a large amount of soot adhered on the filter cover, and ensuring that the temperature in the monitoring system is suitable for normal work.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a network security monitoring system for a thermal power plant industrial control system based on a 5G technology.

FIG. 2 is a schematic structural diagram of a right-view cross section of the heat dissipating block of the present invention.

Fig. 3 is a schematic structural view of a front cross section of the wobble plate of the present invention.

FIG. 4 is a schematic structural view of an elevational cross-section of an impact block of the present invention.

In the figure: the device comprises a base-1, a machine body-2, a radiating block-3, a console-4, a signal rod-5, a filter hood-31, a swinging head-32, a contact block-33, an input pipe-34, a swinging sheet-35, a sliding groove-36, a connecting plate-351, a pressure head-352, a striking groove-353, a striking block-354, a pressure spring-355, a connecting sheet-A1, a swinging strip-A2, a base block-A3, a force application spring-A4 and a striking ball-A5.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Examples

As shown in fig. 1-4, the invention provides a network safety monitoring system for an industrial control system of a thermal power plant based on a 5G technology, which comprises a base 1, a machine body 2, a heat dissipation block 3, a console 4 and a signal rod 5, wherein the top surface of the base 1 is welded with the bottom surface of the machine body 2, the heat dissipation block 3 is embedded in the front surface of the machine body 2, the back surface of the console 4 is embedded and connected with the front surface of the machine body 2, the signal rod 5 is embedded in the front surface of the machine body 2 by a door surface, the heat dissipation block 3 comprises a filter cover 31, a swinging head 32, a contact block 33, an input pipe 34, a swinging sheet 35 and a sliding groove 36, the top surface of the filter cover 31 is embedded and connected with the bottom surface of the swinging head 32, the left side of the contact block 33 is embedded and connected with the right side of the filter cover 31, the inner layer of the input pipe 34 and the sliding groove 36 are integrally formed, the inner layer of the sliding groove 36 is movably connected with the upper end and the lower end of the swinging sheet 35, the left side of the input pipe 34 is embedded and connected with the right side of the filter cover 31, the swing sheet 35 comprises a connecting plate 351, a pressure head 352, a shock groove 353, a shock block 354 and a pressure spring 355, wherein the bottom surface of the connecting plate 351 is fixedly connected with the top surface of the pressure head 352, the shock groove 353 and the inside of the connecting plate 351 are integrally molded, the upper surface and the lower surface of the shock block 354 are fixedly embedded in the inner layer of the connecting plate 351, the left end of the pressure spring 355 is welded to the right side of the pressure head 352, the shock block 354 comprises a connecting sheet A1, a swing strip A2, a base block A3, a force applying spring A4 and a striking ball A5, the bottom surface of the connecting sheet A1 is fixedly connected with the top end of the swing strip A2, the bottom end of the swing strip A2 is fixedly connected with the top surface of the base block A3, the inner layer of the base block A3 is movably connected with the outer layer of the striking ball A5, the right side of the outer layer of the striking ball A5 is fixedly connected with the inner layer of the base block A3 through the force applying spring A4, and the striking ball A5 is of a hollow small ball structure made of elastic rubber material.

The working principle of the present invention is explained as follows: the signal is connected into the machine body 2, the screening standard is controlled by the console 4, in the screening process, an error or harmful signal can be wirelessly and remotely output to a monitoring person through the signal rod 5 by a 5G technology through the machine body 2, meanwhile, in the screening process, the external air is sucked from the heat dissipation block 3 by the suction force generated by the machine body 2 and is dissipated into the machine body 2, the air enters the input pipe 34 from the filter housing 31 and impacts the input pipe and generates pressure on the connecting plate 351, the pressure head 352 is further enabled to press the pressure spring 355 along the right side, when a large amount of soot is adhered on the filter housing 31 to cause difficulty in air flow entering, at the moment, the pressure of the air flow is reduced, so that the elastic force of the pressure spring 355 is released, the pressure head 352 is pushed to the left side, the connecting plate 351 is driven to move, the impact block 354 impacts on the contact block 33, the impact force of the impact is generated by contacting the block 33, meanwhile, the impact ball A5 enhances the impact force generated by the impact under the action of the forcing spring A4, the reaction force is changed into elastic force, the rebound effect is generated, the swinging strip A2 is twisted and is restored after the twisting is finished, the impact ball A5 pushes the impact contact block 33 again, the filter cover 31 which is impacted shakes left and right under the action of the swinging head 32, the cigarette ash can be shaken off from the surface along with the shaking of the surface, and the air flow is restored to be normal.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (4)

1. The utility model provides a network security monitored control system for thermal power plant's industrial control system based on 5G technique, its structure includes base (1), organism (2), radiating block (3), control cabinet (4), signal stick (5), its characterized in that: the base (1) top surface and organism (2) bottom surface welded connection, radiating block (3) are embedded in organism (2) openly, control cabinet (4) back and organism (2) openly are connected with inlaying, signal rod (5) are embedded in organism (2) openly by the shop front.

2. The network safety monitoring system for the thermal power plant industrial control system based on the 5G technology as claimed in claim 1, wherein: radiating block (3) are including filter mantle (31), swing head (32), contact piece (33), input tube (34), swing piece (35), sliding tray (36), filter mantle (31) top surface is connected with swing head (32) bottom surface is set, contact piece (33) left side is connected with filter mantle (31) right side is set, input tube (34) inlayer and sliding tray (36) be the integrated shaping, end swing joint about sliding tray (36) inlayer and swing piece (35), input tube (34) left side is connected with filter mantle (31) right side is set.

3. The network safety monitoring system for the thermal power plant industrial control system based on the 5G technology as claimed in claim 2, wherein: the swing piece (35) comprises a connecting plate (351), a pressure head (352), an impact groove (353), an impact block (354) and a pressure spring (355), the bottom surface of the connecting plate (351) is fixedly embedded with the top surface of the pressure head (352), the impact groove (353) and the inside of the connecting plate (351) are integrally formed, the upper surface and the lower surface of the impact block (354) are fixedly embedded in the inner layer of the connecting plate (351), and the left end of the pressure spring (355) is welded to the right side of the pressure head (352).

4. The network safety monitoring system for the thermal power plant industrial control system based on the 5G technology as claimed in claim 3, wherein: impact block (354) are including connection piece (A1), swing strip (A2), base block (A3), afterburning spring (A4), striking ball (A5), connection piece (A1) bottom surface and swing strip (A2) top end are embedded and are connected, swing strip (A2) bottom is embedded and is connected with base block (A3) top surface, base block (A3) inlayer and striking ball (A5) outer swing joint, striking ball (A5) outer layer right side is connected with base block (A3) inlayer through afterburning spring (A4) is embedded and is connected.

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