CN114615851A - Multi-combination safety protection device and block chain terminal server - Google Patents

Abstract

The application provides a multiunit closes safety device and block chain terminal server belongs to server technical field, and this multiunit closes safety device includes unit protection component and chunk protection component. The fire spread of the cables in the server and the cabinet is blocked by the side vertical anti-board. The top cover prevents the board from falling above the server, and blocks the fire spread caused by the plastic melting and dropping in the cabinet. The upper protection plate and the lower protection plate form a protection partition to block the fire spread in the direction of the server and the cabinet door. The installation baffle, the side stand prevent board, the top cap prevent board, the piece fagging, the upper defence board and the next defence board constitute airtight protective structure, and the all-round intensity of a fire that blocks in server and the rack spreads to reduce the entering of the combustion-supporting oxygen of server, thereby reach and protect the terminal server of block chain fast. The use and the heat dissipation of server in the rack are not influenced to the idle in-process of protector, have increased block chain network security, transmission rate and use reliability.

Description

Multi-combination safety protection device and block chain terminal server

Technical Field

The application relates to the technical field of servers, in particular to a multi-combination safety protection device and a block chain terminal server.

Background

Blockchains are a term of art in information technology. In essence, the system is a shared database, and the data or information stored in the shared database has the characteristics of 'unforgeability', 'whole-course trace', 'traceability', 'public transparency', 'collective maintenance', and the like. The blockchain is a part for digitizing the real world, anything digitized needs to have a place to store it, and the server is used for completing data storage, exchange and other works. The blockchain utilizes peer-to-peer (peer-to-peer) networks, also known as peer-to-peer networks. Each node in the blockchain network is equally located, and is typically a decentralized network, and therefore does not have a central server that is dominant. Blockchains do not require that nodes be always on-line. Allowing nodes to be accessed and exited at any time. However, when a node is not connected to a network for a long time, it takes a long time to update the block information after joining the network. Therefore, a resident terminal server cabinet needs to be added to maintain the safety, rapidness and reliability of the blockchain network,

however, excessive loads, short circuits, dust accumulation, and untimely replacement of old equipment can cause a fire to the blockchain terminal server rack. When a fire disaster occurs in the block chain terminal server cabinet, the fire is easily diffused through the cable, and the whole cabinet is burnt and spread, so that the safety, the rapidness and the reliability of the block chain network are reduced.

Disclosure of Invention

The present application is directed to solving at least one of the problems in the prior art. For this reason, this application provides a multiunit closes safety device and block chain terminal server, blocks through blocking that fire resistive construction protects single server, blocks the structure through sealing the protection, carries out airtight fire-retardant protection to the server to carry out safety protection through extinguishing device to the server.

The application is realized as follows:

the application provides a multi-combination safety device which comprises a unit protection component and a block protection component.

The unit protection component comprises a protection cabinet box, a mounting partition plate, a first magnetic base, a side vertical protection plate and a top cover protection plate, wherein the mounting partition plate is uniformly arranged in the protection cabinet box, the first magnetic base is symmetrically arranged above the mounting partition plate, the upper end of the side vertical protection plate is arranged in the first magnetic base, the top cover protection plate is arranged between the side vertical protection plates, the chunk protection component comprises chunk supporting plates, separation guide frames, an upper protection plate, a lower protection plate, a second magnetic base and a dry powder fire extinguishing ball, the chunk supporting plates are uniformly arranged in the protection cabinet box below the mounting partition plate, the separation guide frames are symmetrically arranged in the protection cabinet box, the upper protection plate is arranged between the separation guide frames, the lower protection plate is slidably penetrated between the separation guide frames, and the second magnetic base is arranged on the separation guide frames, the upper end of the lower fire-proof plate is arranged in the second magnetic base, the lower fire-proof plate faces the block supporting plates, and the dry powder fire extinguishing balls are uniformly arranged between the mounting partition plate and the block supporting plates.

In an embodiment of this application, it is provided with the guard gate to rotate on the protection cabinet case, be provided with the observation window on the guard gate.

In an embodiment of this application, be provided with the mount in the protection cabinet case, separate the guide bracket and be fixed in on the mount.

In an embodiment of this application, evenly be provided with the mounting bracket between the mount, installation baffle both ends overlap joint in the mounting bracket top, chunk fagging both ends overlap joint in the mounting bracket lower extreme.

In an embodiment of the present application, a connecting plate is disposed at an upper end of the lower waterproof plate, and the upper end of the connecting plate penetrates through the second magnetic base.

In an embodiment of the present application, an elevating frame is disposed on the first magnetic base, and the elevating frame is symmetrically disposed on the mounting partition.

In an embodiment of the application, a fixing plate is arranged at the upper end of the side standing prevention plate, and the upper end of the fixing plate penetrates through the first magnetic base.

In one embodiment of the application, a support plate is arranged on the periphery of the top cover protection plate, and the support plate is fixed on the side standing protection plate.

In one embodiment of the present application, baffles are symmetrically disposed on the block supporting plate, and the lower ends of the lower baffle plates are attached to the surfaces of the baffles.

The block chain terminal server is characterized by comprising the multi-combination safety protection device and a block chain assembly, wherein the block chain assembly comprises a monitoring instrument, a flat panel display, an operation panel and a server module, the monitoring instrument, the flat panel display and the operation panel are arranged on the protection cabinet box, the server module is arranged on the installation partition plate, and the monitoring instrument, the flat panel display and the operation panel are electrically connected with the server module.

In an embodiment of the present application, the multi-combination safety protection device further includes a fire protection component and a combination protection component.

The fire protection assembly comprises an upper dry powder box, an upper nozzle, a lower dry powder box, a lower nozzle and an outer box nozzle, the upper dry powder box is arranged in the upper end of the protection cabinet box, the upper nozzle is communicated and arranged at the bottom of the upper dry powder box, the upper nozzle faces the installation clapboard, the lower dry powder box is arranged in the lower end of the protection cabinet box, the lower nozzle is communicated and arranged at the top of the lower dry powder box, the lower nozzle faces the chunk supporting plate, the outer box nozzle is uniformly arranged on the protection cabinet box, the outer box nozzle is respectively communicated with the upper dry powder box and the lower dry powder box, the combined protection assembly comprises a universal wheel, a steering hydraulic cylinder, a positioning guide rail, a blocking sealing cover and a blocking hydraulic cylinder, the universal wheel is uniformly arranged at the bottom of the protection cabinet box, and the cylinder body of the steering hydraulic cylinder is uniformly and rotatably connected to one of the protection cabinet boxes, turning to pneumatic cylinder piston rod one end and rotating to connect in another on the protection cabinet case, the protection cabinet case rotates in proper order to connect, the location guide rail evenly set up in protection cabinet roof portion, the separation closing cap slide in the location guide rail, separation pneumatic cylinder body set up in protection cabinet roof portion, separation pneumatic cylinder piston rod one end set up in on the separation closing cap.

In an embodiment of this application, the symmetry is provided with the swivel mount on the protection cabinet case, the swivel mount rotates the connection in proper order, protection cabinet bottom of the case portion is provided with the revolving rack, the universal wheel set up in the revolving rack.

In an embodiment of this application, separation closing cap bottom is rotated and is provided with the pulley, the pulley slide in the positioning guide, separation pneumatic cylinder piston rod one end is provided with the connecting block, the connecting block is fixed in on the separation closing cap.

In an embodiment of this application, turn to pneumatic cylinder body and rotate and be provided with first swivel mount, first swivel mount is fixed in on the protection cabinet case, it is provided with the second swivel mount to turn to pneumatic cylinder piston rod one end rotation, the second swivel mount is fixed in on the protection cabinet case.

In an embodiment of the present application, the upper dry powder box peripheral side and the lower dry powder box peripheral side are both provided with a seat plate, and the seat plate is fixed in the protection cabinet box.

The beneficial effect of this application is: this application obtains through above-mentioned design a multiunit combination safety device and block chain terminal server, during the use, when terminal server rack conflagration emergence was monitored to fire monitoring devices, first magnetic force seat stopped magnetic force actuation side and immediately guards against the board, and the board whereabouts is prevented on the side is immediately installed on the baffle, and the cable intensity of a fire that blocks server and rack through the side is immediately prevented the board and is spread. The top cover prevents the board from falling above the server, and blocks the fire spread caused by the plastic melting and dropping in the cabinet. The second magnetic base stops attracting the lower anti-plate, the lower anti-plate falls on the chunk supporting plate, and the upper anti-plate and the lower anti-plate form a protective partition to block the fire spreading in the direction of the server and the cabinet door. The installation baffle, the side stand prevent board, the top cap prevent board, the piece fagging, the upper defence board and the next defence board constitute airtight protective structure, and the all-round intensity of a fire that blocks in server and the rack spreads to reduce the entering of the combustion-supporting oxygen of server, thereby reach and protect the terminal server of block chain fast. The use and the heat dissipation of server in the rack are not influenced to the idle in-process of protector, have increased block chain network security, transmission rate and use reliability.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic perspective view of a multi-combination safety protection device and a blockchain terminal server according to an embodiment of the present disclosure;

fig. 2 is a schematic perspective view of a unit protection assembly according to an embodiment of the present disclosure;

FIG. 3 is a schematic partial perspective view of a unit protection assembly according to an embodiment of the present disclosure;

FIG. 4 is a schematic perspective view of a chunk guard assembly according to an embodiment of the present disclosure;

fig. 5 is a schematic perspective view of a blockchain assembly according to an embodiment of the present disclosure;

FIG. 6 is a perspective view of a fire protection module according to an embodiment of the present disclosure;

fig. 7 is a schematic perspective view of a combined protection component according to an embodiment of the present application.

In the figure: 100-a unit guard assembly; 110-protective cabinet box; 111-a guard gate; 112-a viewing window; 113-a fixing frame; 114-a mounting frame; 115-transposition; 116-a turret; 120-installing a partition plate; 130-a first magnetic base; 131-an elevating frame; 140-side standing defending plate; 141-a fixed plate; 150-roof fenders; 151-a support plate; 300-a chunk guard component; 310-set backup plate; 311-baffles; 320-a separation guide frame; 330-upper defense board; 340-lower defense panel; 341-connecting plate; 350-a second magnetic base; 360-dry powder fire extinguishing ball; 500-blockchain component; 510-a monitoring instrument; 520-a flat panel display; 530-an operation panel; 540-server module; 700-a fire protection shield assembly; 710-loading a dry powder box; 711-seat board; 720-upper nozzle; 730-dry powder box; 740-lower nozzle; 750-outer box nozzles; 900-a combined guard assembly; 910-universal wheels; 920-steering hydraulic cylinders; 921-first transposition; 922-second transposition; 930-positioning the guide rail; 940-barrier capping; 941-pulley; 950-blocking hydraulic cylinders; 951-connecting block.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Examples

As shown in fig. 1 to 7, the multi-combination safety shield apparatus according to the embodiment of the present application includes a unit shield assembly 100, a block shield assembly 300, a fire protection assembly 700, and a combination shield assembly 900. The block protection assembly 300 is installed in the unit protection assembly 100, the fire protection assembly 700 is installed in the unit protection assembly 100, and the combined protection assembly 900 is installed on the periphery side of the unit protection assembly 100. The unit protection component 100 performs protection blocking on a single server through a blocking fireproof structure; the block protection component 300 is matched with the unit protection component 100 to form a closed protection blocking structure, and the server is safely protected through a fire extinguishing device; the fire protection assembly 700 integrally extinguishes the inside of the server cabinets through a fire extinguishing device and extinguishes the space between the server cabinets; the combined protection assembly 900 forms an external enclosure structure through the combination between the cabinets to block the fire airflow.

As shown in fig. 2-6, excessive loads, short circuits, dust accumulation, and untimely replacement of old equipment can cause a fire in the blockchain terminal server racks. When a fire disaster occurs in the block chain terminal server cabinet, the fire can be easily diffused through the cable, and the whole cabinet is burnt and spread, so that the network security, the transmission rate and the use reliability of the block chain are reduced.

The unit guard assembly 100 includes a guard cabinet 110, a mounting partition 120, a first magnetic mount 130, a side shield 140, and a top shield 150. Installation baffle 120 evenly sets up in protection cabinet 110, is provided with mount 113 in the protection cabinet 110, mount 113 and protection cabinet 110 spiro union, evenly is provided with mounting bracket 114 between the mount 113, and installation baffle 120 both ends overlap joint in mounting bracket 114 top, and mounting bracket 114 respectively with mount 113 and installation baffle 120 spiro union. The first magnetic base 130 is symmetrically arranged above the installation partition 120, the first magnetic base 130 is provided with an elevating frame 131, the elevating frame 131 is symmetrically arranged on the installation partition 120, and the elevating frame 131 is respectively in threaded connection with the first magnetic base 130 and the installation partition 120. The upper end of the side vertical protection plate 140 is arranged in the first magnetic base 130, the upper end of the side vertical protection plate 140 is provided with the fixing plate 141, the side vertical protection plate 140 is in threaded connection with the fixing plate 141, the upper end of the fixing plate 141 penetrates through the first magnetic base 130, an electromagnet is arranged in the specific first magnetic base 130, the electromagnet is electrified to perform magnetic adsorption on the fixing plate 141, and meanwhile magnetic interference of a magnetic field which is reduced by the design on electrical equipment is avoided.

The top cover guard plate 150 is arranged between the side upright guard plates 140, support plates 151 are arranged on the periphery of the top cover guard plate 150, the support plates 151 are fixed on the side upright guard plates 140, and the support plates 151 are respectively in threaded connection with the top cover guard plate 150 and the side upright guard plates 140. The protection cabinet box 110 is provided with a protection door 111 in a rotating mode, the protection door 111 is connected with the protection cabinet box 110 in a hinge mode, and an observation window 112 is arranged on the protection door 111 to facilitate observation of personnel.

The block guard assembly 300 includes a block supporting plate 310, a separation guide 320, an upper fence 330, a lower fence 340, a second magnetic base 350, and a dry powder fire extinguishing ball 360. The block supporting plates 310 are uniformly arranged in the protective cabinet 110 below the installation partition plate 120, two ends of the block supporting plates 310 are lapped in the lower end of the installation frame 114, and the block supporting plates 310 are in threaded connection with the installation frame 114. The partition guide frame 320 is symmetrically disposed in the protection cabinet 110, the partition guide frame 320 is fixed on the fixing frame 113, and the partition guide frame 320 is screwed with the fixing frame 113. The upper guard plate 330 is disposed between the separation guides 320, and the upper guard plate 330 is inserted into the separation guides 320 and is positioned by screws. The lower preventing plate 340 slidably penetrates between the separating guides 320, a sliding groove is formed in each separating guide 320, and the lower preventing plate 340 slidably penetrates in the sliding groove. The second magnetic base 350 is disposed on the separating guide frame 320, the upper end of the lower anti-plate 340 is disposed in the second magnetic base 350, the upper end of the lower anti-plate 340 is disposed with a connecting plate 341, the connecting plate 341 is screwed with the lower anti-plate 340, and the upper end of the connecting plate 341 penetrates through the second magnetic base 350.

Wherein, be provided with the electro-magnet in the concrete second magnetic base 350, the electro-magnet carries out magnetic force to adsorb to connecting plate 341 after the circular telegram, and the reducible magnetic field of this kind of design simultaneously disturbs the magnetic force of electrical equipment. The lower baffle 340 faces the block supporting plate 310, the baffle plates 311 are symmetrically arranged on the block supporting plate 310, the baffle plates 311 and the block supporting plate 310 are integrally formed, and the lower end of the lower baffle 340 is attached to the surface of the baffle plates 311. The dry powder fire extinguishing balls 360 are uniformly arranged between the mounting partition plate 120 and the block supporting plate 310.

When the fire monitoring device monitors that the cabinet of the terminal server has a fire, the first magnetic base 130 stops magnetically attracting the fixed plate 141, the side vertical shielding plate 140 falls on the installation partition plate 120, and the side vertical shielding plate 140 blocks the cable fire spread between the server and the cabinet. The top cover plate 150 falls over the servers to block fire spread caused by plastic melt dripping in the cabinet. The second magnetic base 350 stops attracting the connection plate 341, the lower prevention plate 340 falls on the block supporting plate 310, and the upper prevention plate 330 and the lower prevention plate 340 form a protective partition to block the fire spreading in the directions of the server and the cabinet door. The installation partition plate 120, the side vertical protection plate 140, the top cover protection plate 150, the block supporting plate 310, the upper protection plate 330 and the lower protection plate 340 form a closed protection structure, fire spreading in the server and the cabinet is blocked in all directions, and the entrance of the server combustion-supporting oxygen is reduced, so that the block chain terminal server is protected and protected quickly. The use and the heat dissipation of server in the rack are not influenced to the idle in-process of protector, have increased block chain network security, transmission rate and use reliability.

The fire protection assembly 700 comprises an upper dry powder box 710, an upper nozzle 720, a lower dry powder box 730, a lower nozzle 740 and an outer box nozzle 750, wherein the upper dry powder box 710 is arranged in the upper end of the protection cabinet box 110, the lower dry powder box 730 is arranged in the lower end of the protection cabinet box 110, seat plates 711 are arranged on the peripheral sides of the upper dry powder box 710 and the lower dry powder box 730, the seat plates 711 are respectively welded with the upper dry powder box 710 and the lower dry powder box 730, the seat plates 711 are fixed in the protection cabinet box 110, and the seat plates 711 are in threaded connection with the protection cabinet box 110. The upper nozzle 720 is arranged at the bottom of the upper dry powder box 710 in a communicating way, the upper nozzle 720 faces the mounting partition plate 120, the lower nozzle 740 is arranged at the top of the lower dry powder box 730 in a communicating way, and the lower nozzle 740 faces the block supporting plate 310. Outer container nozzle 750 evenly sets up on protection cabinet case 110, and outer container nozzle 750 communicates in last dry powder case 710 and dry powder case 730 respectively.

When a fire disaster happens to an individual server, the server is blocked and isolated by a closed protection cavity formed by the installation partition plate 120, the side standing shield 140, the top cover shield 150, the block supporting plate 310, the upper shield 330 and the lower shield 340. The dry powder fire extinguishing ball 360 is exploded after being heated, and partial dry powder can enter the closed cavity to extinguish a fire independently for the server, and partial dry powder can enter the fixing frame 113 cable groove to extinguish a fire for the cable, so that the accurate fire extinguishing and partition in the cabinet are realized, the spread of fire in the cabinet is reduced, the pollution to the cabinet after fire extinguishing is reduced, and the quick reuse of the network node of the block chain terminal server is facilitated. When the cable electrical apparatus in the rack breaks out the conflagration, the above-mentioned server protection partition structure that protects is opened upper nozzle 720 and lower nozzle 740 and carries out all-round putting out a fire to the rack in, has reduced the pollution of putting out a fire to the server. The block chain network security, transmission rate and use reliability are increased.

As shown in fig. 2 to 7, existing server cabinets are all fixedly arranged, and when a local fire occurs in a machine room, the server cabinet is easily ignited by the spread fire, which causes the spread fire in the machine room, and thus, the safety, transmission rate and use reliability of the blockchain network are reduced.

The combined guard assembly 900 includes universal wheels 910, steering hydraulic cylinders 920, positioning guide rails 930, blocking covers 940 and blocking hydraulic cylinders 950. The universal wheels 910 are uniformly arranged at the bottom of the protection cabinet 110, the rotating frame 116 is in threaded connection with the protection cabinet 110, and the universal wheels 910 are arranged in the rotating frame 116. The cylinder body of the steering hydraulic cylinder 920 is uniformly connected to one of the protection cabinet boxes 110 in a rotating mode, the cylinder body of the steering hydraulic cylinder 920 is provided with a first rotating seat 921 in a rotating mode, the steering hydraulic cylinder 920 is connected with the first rotating seat 921 in a pin shaft mode, the first rotating seat 921 is fixed to the protection cabinet boxes 110, and the first rotating seat 921 is welded to the protection cabinet boxes 110. One end of a piston rod of the steering hydraulic cylinder 920 is rotatably connected to the other protection cabinet 110, one end of a piston rod of the steering hydraulic cylinder 920 is rotatably provided with a second rotary seat 922, the second rotary seat 922 is connected with the steering hydraulic cylinder 920 through a pin shaft, the second rotary seat 922 is fixed on the protection cabinet 110, and the second rotary seat 922 is welded with the protection cabinet 110. The protective cabinet 110 is connected in turn.

Wherein, the symmetry is provided with swivel mount 115 on the protection cabinet case 110, and swivel mount 115 rotates the connection in proper order, and specific swivel mount 115 is hinge structure. The positioning guide rails 930 are uniformly arranged on the top of the protection cabinet 110, and the positioning guide rails 930 are screwed with the protection cabinet 110. Separation closing cap 940 slides in location guide rail 930, and separation closing cap 940 bottom is rotated and is provided with pulley 941, and pulley 941 and separation closing cap 940 pin hub connection, pulley 941 slide in location guide rail 930. The body of the blocking hydraulic cylinder 950 is arranged at the top of the protection cabinet 110, and the blocking hydraulic cylinder 950 is screwed with the protection cabinet 110. Separation pneumatic cylinder 950 piston rod one end sets up on separation closing cap 940, and separation pneumatic cylinder 950 piston rod one end is provided with connecting block 951, and connecting block 951 is fixed in on the separation closing cap 940.

The server cabinets are spliced and assembled through the hinge structure of the rotary seat 115, one of the server cabinets is selected to be used as a fixed cabinet for connecting external cables, and the server cabinets can be arranged in a row for conventional use. When the fire tendril appears in the machine room, the rotation of the corresponding protective cabinet box 110 is controlled by the steering hydraulic cylinder 920, so that part of the server cabinet is far away from the fire source, the upper dry powder box 710 and the lower dry powder box 730 are communicated through the outer box nozzle 750, and the fire is extinguished outside the cabinet. When the server rack that stretchs the intensity of a fire in the computer lab can not rotate and avoid, through turning to corresponding protection cabinet case 110 of pneumatic cylinder 920 control, each server rack outer wall is kept away from and is constituteed the petal and surround the structure, has reduced the risk that the server rack contacted the intensity of a fire each other and stretchs through this kind of structure. The closure of the blocking sealing cover 940 is controlled through the blocking hydraulic cylinder 950, so that the center of the petal surrounding structure is closed, the circulation of combustion-supporting gas is blocked, the time for the server mechanism to resist fire spreading and burning is prolonged by matching with the protection device, and the network safety, the transmission rate and the use reliability of the block chain are protected to the greatest extent.

As shown in fig. 5, the present application further provides a blockchain terminal server, which utilizes the multi-combination safety protection device and the blockchain assembly 500, where the blockchain assembly 500 includes a monitoring instrument 510, a flat panel display 520, an operation panel 530 and a server module 540, the monitoring instrument 510, the flat panel display 520 and the operation panel 530 are all disposed on the protection cabinet 110, the monitoring instrument 510 performs high-precision protection monitoring on the server cabinet, the flat panel display 520 displays server adjustment parameters, and the operation panel 530 facilitates field debugging operations of maintenance personnel. The server modules 540 are disposed on the mounting spacers 120, and the server modules 540 are zone link point servers. The monitoring meter 510, the flat panel display 520 and the operation panel 530 are electrically connected to the server module 540.

Specifically, the working principle of the multi-combination safety protection device and the block chain terminal server is as follows: when the fire monitoring device monitors that the cabinet of the terminal server has a fire, the first magnetic base 130 stops magnetically attracting the fixed plate 141, the side vertical shielding plate 140 falls on the installation partition plate 120, and the side vertical shielding plate 140 blocks the cable fire spread between the server and the cabinet. The top cover plate 150 falls over the servers to block fire spread caused by plastic melt dripping in the cabinet. The second magnetic base 350 stops attracting the connection plate 341, the lower prevention plate 340 falls on the block supporting plate 310, and the upper prevention plate 330 and the lower prevention plate 340 form a protective partition to block the fire spreading in the directions of the server and the cabinet door. The installation partition plate 120, the side vertical protection plate 140, the top cover protection plate 150, the block supporting plate 310, the upper protection plate 330 and the lower protection plate 340 form a closed protection structure, fire spreading in the server and the cabinet is blocked in all directions, and the entrance of the server combustion-supporting oxygen is reduced, so that the block chain terminal server is protected and protected quickly. The idle in-process of protector does not influence the use and the heat dissipation of the interior server of rack, has increased block chain network security, transmission rate and use reliability.

Further, when a fire disaster occurs in an individual server, the server is blocked and isolated by a sealed protection cavity formed by the installation partition plate 120, the side vertical shield plate 140, the top cover shield plate 150, the block supporting plate 310, the upper shield plate 330 and the lower shield plate 340. The dry powder fire extinguishing ball 360 is exploded after being heated, and partial dry powder can enter the closed cavity to extinguish a fire independently for the server, and partial dry powder can enter the fixing frame 113 cable groove to extinguish a fire for the cable, so that the accurate fire extinguishing and partition in the cabinet are realized, the spread of fire in the cabinet is reduced, the pollution to the cabinet after fire extinguishing is reduced, and the quick reuse of the network node of the block chain terminal server is facilitated. When the cable electrical apparatus in the rack breaks out the conflagration, the above-mentioned server protection partition structure that protects is opened upper nozzle 720 and lower nozzle 740 and carries out all-round putting out a fire to the rack in, has reduced the pollution of putting out a fire to the server. The block chain network security, transmission rate and use reliability are increased.

In addition, the server cabinets are spliced and assembled through the hinge structures of the rotary bases 115, one of the server cabinets is selected to be used as a fixed cabinet to be connected with an external cable, and the server cabinets can be arranged in a row for conventional use. When the fire tendril appears in the machine room, the rotation of the corresponding protective cabinet box 110 is controlled by the steering hydraulic cylinder 920, so that part of the server cabinet is far away from the fire source, the upper dry powder box 710 and the lower dry powder box 730 are communicated through the outer box nozzle 750, and the fire is extinguished outside the cabinet. When the server rack that stretchs the intensity of a fire in the computer lab can not rotate and avoid, through turning to corresponding protection cabinet case 110 of pneumatic cylinder 920 control, each server rack outer wall is kept away from and is constituteed the petal and surround the structure, has reduced the risk that the server rack contacted the intensity of a fire each other and stretchs through this kind of structure. The closure of the blocking sealing cover 940 is controlled through the blocking hydraulic cylinder 950, so that the center of the petal surrounding structure is closed, the circulation of combustion-supporting gas is blocked, the time for the server mechanism to resist fire spreading and burning is prolonged by matching with the protection device, and the network safety, the transmission rate and the use reliability of the block chain are protected to the greatest extent.

It should be noted that the specific model specifications of the first magnetic base 130, the second magnetic base 350, the monitoring instrument 510, the flat panel display 520, the operation panel 530, the server module 540, the steering hydraulic cylinder 920 and the blocking hydraulic cylinder 950 need to be determined according to the actual specification of the device, and the specific model selection calculation method adopts the prior art in the field, and therefore, detailed description is omitted.

The power supply and the principle of the first magnetic base 130, the second magnetic base 350, the monitoring meter 510, the flat panel display 520, the operation panel 530, the server module 540, the steering hydraulic cylinder 920 and the blocking hydraulic cylinder 950 will be clear to those skilled in the art and will not be described in detail herein.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application shall be included in the protection scope of the present application. It should be noted that like reference numerals and letters refer to like items in the following figures, and thus once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Claims (10)

1. A multi-combination safety protection device is characterized by comprising

The unit protection assembly (100) comprises a protection cabinet box (110), an installation partition plate (120), a first magnetic base (130), a side vertical protection plate (140) and a top cover protection plate (150), wherein the installation partition plate (120) is uniformly arranged in the protection cabinet box (110), the first magnetic base (130) is symmetrically arranged above the installation partition plate (120), the upper end of the side vertical protection plate (140) is arranged in the first magnetic base (130), and the top cover protection plate (150) is arranged between the side vertical protection plates (140);

chunk protection component (300), chunk protection component (300) includes chunk fagging (310), separates guide frame (320), upper protection plate (330), lower protection plate (340), second magnetic base (350) and dry powder fire extinguishing ball (360), chunk fagging (310) evenly set up in installation baffle (120) below in protection cabinet (110), separate guide frame (320) symmetry set up in protection cabinet (110), upper protection plate (330) set up in separate between guide frame (320), lower protection plate (340) slide run through in separate between guide frame (320), second magnetic base (350) set up in separate on guide frame (320), lower protection plate (340) upper end set up in second magnetic base (350), lower protection plate (340) orientation chunk fagging (310), dry powder fire extinguishing ball (360) evenly set up in installation baffle (120) with chunk fagging (310) ) In the meantime.

2. A multi-combination safety device according to claim 1, wherein the safety cabinet (110) is rotatably provided with a protective door (111), and the protective door (111) is provided with an observation window (112).

3. A multi-combination safety shield according to claim 1, wherein a fixing frame (113) is provided in the shielding cabinet (110), and the partition guide (320) is fixed to the fixing frame (113).

4. A multi-combination safety protection device according to claim 3, wherein mounting frames (114) are uniformly arranged between the fixing frames (113), both ends of the mounting partition plate (120) are lapped on the top of the mounting frames (114), and both ends of the block bracing plate (310) are lapped in the lower ends of the mounting frames (114).

5. A multi-combination safety guard according to claim 1, wherein the lower guard plate (340) is provided with a connecting plate (341) at the upper end, and the upper end of the connecting plate (341) penetrates through the second magnetic base (350).

6. A multi-combination safety protection device according to claim 1, wherein the first magnetic base (130) is provided with an elevating frame (131), and the elevating frame (131) is symmetrically arranged on the installation partition (120).

7. A multi-combination safety device according to claim 1, wherein the side vertical guarding plate (140) is provided with a fixing plate (141) at the upper end, and the upper end of the fixing plate (141) penetrates through the first magnetic base (130).

8. A multi-combination safety guard according to claim 1, characterized in that the top cover guard (150) is provided with a support plate (151) on its periphery, and the support plate (151) is fixed on the side standing guard (140).

9. A multi-combination safety protection device according to claim 1, wherein the set of block supporting plates (310) are symmetrically provided with baffle plates (311), and the lower ends of the lower baffle plates (340) are attached to the surfaces of the baffle plates (311).

10. A blockchain terminal server, comprising a multi-combination safety guard of any of claims 1 to 9, and a blockchain assembly (500), wherein the blockchain assembly (500) comprises a monitoring instrument (510), a flat panel display (520), an operation panel (530) and a server module (540), the monitoring instrument (510), the flat panel display (520) and the operation panel (530) are disposed on the protective cabinet (110), the server module (540) is disposed on the mounting partition (120), and the monitoring instrument (510), the flat panel display (520) and the operation panel (530) are electrically connected to the server module (540).

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