CN112860038A

CN112860038A - Safety system based on cloud computing processor

Info

Publication number: CN112860038A
Application number: CN202110043208.1A
Authority: CN
Inventors: 潘浩鹏
Original assignee: Individual
Current assignee: Shenzhen Lihe Xinnuo Technology Co ltd
Priority date: 2021-01-13
Filing date: 2021-01-13
Publication date: 2021-05-28
Anticipated expiration: 2041-01-13
Also published as: CN112860038B

Abstract

The invention discloses a safety system based on a cloud computing processor in the technical field of computer processors, which comprises a case, wherein the case comprises a cover plate, a mounting door, a mounting plate, a first heat dissipation port and a second heat dissipation port, and the cover plate is connected to the inner side wall of the top end of the case in a sliding manner; according to the invention, by arranging the fire extinguishing mechanism and the sealing mechanism, when the processor catches fire, the smoke sensor timely senses and controls the circuit to start to be electrified, so that the sealing mechanism is closed, the whole case is sealed, carbon dioxide is prevented from being directly discharged out of the case, the fire extinguishing speed is reduced, the fire extinguishing mechanism is started, and the power of the fire extinguishing mechanism is provided by the gravity of water falling in the water tank, so that dry ice in the dry ice bearing box intermittently falls into the reaction box, the dry ice and the water can be ensured to be fully reacted, and the water in the reaction box is heated by high temperature in the case through the heat dissipation plate, so that the carbon dioxide generation speed is increased, and the fire extinguishing timeliness is ensured.

Description

Safety system based on cloud computing processor

Technical Field

The invention discloses a security system based on a cloud computing processor, and belongs to the technical field of computer processors.

Background

At present, in the field of industrial equipment, a safety computer is generally required to have higher operation, transmission and control capabilities, good universality in a full life cycle and upgradable maintainability.

Among the prior art, when the computer worked in summer, because the weather temperature is high, added the high-speed operation of the inside treater of computer, lead to the unable timely reduction of treater temperature, finally lead to the treater to catch fire, but among the prior art, lack the function of putting out a fire in the computer processor, when catching fire, can't put out the intensity of a fire fast to can cause the conflagration, cause serious loss.

Based on this, the invention designs a safety system based on a cloud computing processor to solve the problems.

Disclosure of Invention

The invention aims to provide a safety system based on a cloud computing processor, and aims to solve the problems that when a computer works in summer, the temperature of the processor cannot be timely reduced due to high weather temperature and high-speed operation of the processor in the computer, and finally the processor is on fire, but in the prior art, the processor of the computer is lack of a fire extinguishing function, and the fire cannot be quickly extinguished during fire catching, so that fire disasters and serious losses are caused.

In order to achieve the purpose, the invention provides the following technical scheme: a safety system based on a cloud computing processor comprises a case, wherein the case comprises a cover plate, an installation door, an installation plate, a first heat dissipation opening and a second heat dissipation opening, the cover plate is connected to the inner side wall of the top end of the case in a sliding mode, the installation door is connected to the right side wall of the case in a sliding mode, the installation plate is fixedly connected to the inner side wall of the case, a plurality of processors are fixedly connected to the top end of the installation plate and the bottom end of the inner side of the case, a fire extinguishing mechanism is arranged on the inner side wall of the top end of the case and comprises a dry ice carrying box, the dry ice carrying box is fixedly connected to the bottom end of the cover plate, a reaction box is fixedly connected to the bottom end of the dry ice carrying box, air dissipation holes are formed in the side wall of the reaction box, a smoke sensor is fixedly connected, the first sealing plate is sealed at the bottom end of the dry ice bearing box in a sliding manner, the bottom end of the first sealing plate is symmetrically and fixedly connected with pushing plates, the bottoms of the two pushing plates are connected with a stirring mechanism together, the side wall of each pushing plate is provided with a pushing groove, the inner side wall of the reaction box is symmetrically and rotatably connected with a rotating shaft, the surface of the rotating shaft is fixedly connected with a driving impeller, the surface of the rotating shaft is fixedly connected with a poking disk, the poking disk is arranged on the inner side of the driving impeller, the position, close to the edge, on the surface of the poking disk is fixedly connected with a poking rod, the poking rod is connected in the pushing groove in a sliding manner, the bottom end of the cover plate is fixedly connected with a water tank, the bottom end of the water tank is symmetrically communicated with two water injection pipes, the bottom ends of the water injection pipes penetrate through the reaction box, the, the top ends of the water injection pipes are provided with a sealing mechanism together, and the sealing mechanism is triggered by the sealing mechanism to release the sealing of the water injection pipes;

when the computer works in summer, the temperature of the processor cannot be timely reduced due to high weather temperature and high-speed operation of the processor in the computer, and finally the processor catches fire, but in the prior art, the processor in the computer lacks of a fire extinguishing function, and when the processor catches fire, the fire cannot be quickly extinguished, so that fire can be caused, and serious loss is caused, the sealing mechanism is communicated through the peripheral circuit, when the processor in the case catches fire, the smoke sensor receives smoke signals, the peripheral circuit switch is opened, so that the sealing mechanism is electrified and started, the sealing mechanism is opened at the same time, water in the water tank is circulated into the reaction box through the water injection pipe, the impeller is driven to rotate through the gravity of falling water flow, the toggle plate starts to rotate, and the toggle rod moves upwards along the push groove under the traction action of the push groove, the poke rod is driven to move leftwards, the first sealing plate opens the dry ice bearing box, the dry ice falls into the reaction box and fully reacts with water, a large amount of carbon dioxide is generated after the dry ice reacts with the water, the large amount of carbon dioxide flows out of the reaction box through the air diffusing holes and then is distributed in the machine box, the oxygen content in the air is reduced, and therefore the fire extinguishing effect is achieved. Smog disappears, through smoke transducer's control, make sealing mechanism closed by the outage, seal the mechanism simultaneously and be closed under sealing mechanism's linkage, the rivers stop, remaining carbon dioxide can be discharged from the quick-witted incasement automatically, this technical scheme, through sealing the space of treater, generate carbon dioxide simultaneously, with the full carbon dioxide in the whole treater to reduce the density of oxygen in the treater, thereby reach the contact with oxygen and burning point, thereby can put out the intensity of a fire in time, avoid treater spontaneous combustion and cause the problem production of huge loss.

As a further scheme of the invention, the sealing mechanism comprises a first de-solid soft magnet, the first de-solid soft magnet is fixedly connected to the bottom end of the right side wall of the case, two ends of the first de-solid soft magnet are symmetrically and fixedly connected with first excitation coils, two first slide bars are symmetrically and fixedly connected to the top end of the first de-solid soft magnet, a second sealing plate is commonly and slidably connected to the surface of the two first slide bars, the bottom end of the second sealing plate is fixedly connected with a first magnetic plate, a flow guide mechanism is arranged on the inner side wall of the second sealing plate, a first return spring is fixedly connected between the first magnetic plate and the first de-solid soft magnet, the first return spring is sleeved on the surface of the first slide bar, the side surface of the second sealing plate is provided with an air inlet communicated with a first heat dissipation port, the left side wall of the case is fixedly connected with a second de-solid soft magnet, two ends of the second de-solid soft magnet are both fixedly connected with second excitation coils, the top ends of the second de-solid soft magnets are symmetrically and fixedly connected with second slide bars, the two second slide bars are jointly connected with a third sealing plate in a sliding mode, the side face of the third sealing plate is provided with an air outlet communicated with a second heat radiating port, the bottom end of the third sealing plate is fixedly connected with a second magnetic plate, a second reset spring is fixedly connected between the second magnetic plate and the second de-solid soft magnets, and the second reset spring is sleeved on the surfaces of the second slide bars; when the machine works, if the whole machine box is not sealed, part of carbon dioxide generated is directly discharged out of the machine box to cause that oxygen cannot be well blocked, so that the fire extinguishing speed is reduced, the damage degree of a processor is increased, the smoke sensor control is adopted, when the processor catches fire, the smoke sensor control is adopted to electrify the first exciting coil and the second exciting coil, so that the first de-solidification soft magnet and the second de-solidification soft magnet respectively generate magnetism, the first de-solidification soft magnet and the second de-solidification soft magnet respectively start to attract the first magnetic plate and the second magnetic plate by magnetic force, the second sealing plate and the third sealing plate respectively move downwards, the air inlet and the air outlet are respectively dislocated with the first heat dissipation port and the second heat dissipation port, so that the first heat dissipation port and the second heat dissipation port are sealed by the second sealing plate and the third sealing plate, and the first return spring and the second return spring are compressed, the whole case is in a closed space, thereby ensuring that the generated carbon dioxide can be fully distributed in the whole cavity and can not flow out from the air outlet and the air inlet on the side wall, ensuring that the carbon dioxide can isolate the processor from being contacted with oxygen, further improving the high efficiency of fire extinguishing, under the control of the smoke sensor, a circuit switch of the external device is closed, the magnetic force of the first and second de-solid soft magnets disappears, the second sealing plate and the third sealing plate are sealed and reset under the action of the first reset spring and the second reset spring, the air inlet and the air outlet are respectively communicated with the first heat-radiating port and the second heat-radiating port, in order to ensure that carbon dioxide can be fully distributed in the whole case, the oxygen density of the case is reduced, the contact chance of the processor and oxygen is reduced, and the problem that the carbon dioxide is directly discharged out of the case to cause the fire extinguishing speed to be reduced and the damage degree of the processor is increased is solved.

As a further scheme of the invention, the drainage mechanism comprises two electric sockets, two metal electric connecting sleeves, a motor and two air vents, the electric sockets are symmetrically and fixedly connected to the bottom end of the inner side of the case, the top ends of the electric sockets are fixedly connected with connecting rods, the surfaces of the connecting rods are sleeved with electric coils, the metal electric connecting sleeves penetrate through the inner side wall of the case and then are fixedly connected with a first sealing plate, the motor is fixedly connected to the bottom end of the inner side of the case, the motor is electrically connected with the metal electric connecting sleeves, the two air vents are symmetrically arranged on the inner side wall of the case, the end part of an output shaft of the motor is fixedly connected with a rotating turbine; the during operation, when sealing mechanism opens, because of discharging the air of quick-witted incasement with higher speed, carbon dioxide that will generate in time gets off from the eminence drainage simultaneously, be covered with whole quick-witted case, the contact of isolated treater and oxygen, connect the electric cover through setting up connecting rod and metal, when second closing plate downstream, connecting rod and metal connect the electric cover to produce and cup joint, connect the electric coil until the metal, make the motor circular telegram, the motor is started, and drive rotatory turbine and begin to rotate, under the effect of rotatory turbine, guarantee when sealing mechanism opens, the air with quick-witted incasement of rotatory turbine discharges, and the timely carbon dioxide that will generate flows down from the reaction box, be covered with whole quick-witted case space, in time, the contact of isolated treater and oxygen, improve the speed of putting out a fire, thereby reduce the degree that the treater damaged.

As a further scheme of the invention, the stirring device comprises a rotating rod, two ends of the rotating rod are rotatably connected to the bottom end of a poke rod, stirring blades distributed in an array form are fixedly connected to the surface of the rotating rod, a driving gear is fixedly connected to the surface of the rotating rod, a driving rack is meshed with the bottom end of the driving gear, and the driving rack is fixedly connected to the side wall of the reaction box; the during operation, because dry ice can produce after falling and pile up, cause inboard dry ice contact water to need the process, cause the problem production that carbon dioxide generates speed and slows, when removing about first closing plate, under drive gear and drive rack meshing about, make the axis of rotation rotatory, impel the rotation of stirring leaf, thereby accelerate the abundant reaction of dry ice and water, improve carbon dioxide and generate speed, and can absorb a large amount of heats when dry ice and water reaction generate carbon dioxide, through the stirring of stirring leaf, improve endothermic speed, the inside temperature of quick-witted case has effectively been reduced, thereby improve the efficiency of putting out a fire.

As a further scheme of the invention, the sealing mechanism comprises a U-shaped pushing frame and a fourth sealing plate, the bottom end of the left side of the U-shaped pushing frame is fixedly connected to the top of the second sealing plate, the bottom end of the right side of the U-shaped pushing frame penetrates through the cover plate and is in sliding connection with the cover plate, the fourth sealing plate is sealed at the pipe orifice at the top end of the water injection pipe, the top end of the fourth sealing plate is fixedly connected with a pushing block, the inclined plane at the top end of the pushing block is in contact with the inclined plane at the bottom end of the right side of the U-shaped pushing frame, the right side wall of the pushing block is fixedly connected with a telescopic reset rod, and one end; when the fire extinguishing device works, when the third sealing plate moves downwards, the U-shaped pushing frame moves downwards, the pushing block drives the fourth sealing plate to move rightwards through the contact and extrusion of the inclined plane at the bottom end of the right side of the U-shaped pushing frame and the inclined plane at the top end of the pushing block, the top port of the water injection pipe is opened, water flows out of the water injection pipe into the reaction box, when the fire extinguishing is finished, the third sealing plate moves upwards, the U-shaped pushing frame moves upwards, under the action of the telescopic reset rod, the fourth sealing plate seals the top pipe orifice of the water injection pipe again, thereby realizing, when fire is needed to be extinguished, the sealing of the pipe orifice at the top end of the water injection pipe is automatically removed, after the fire is extinguished and the smoke disappears, the U-shaped pushing frame is reset, therefore, the sealing of the fourth sealing plate on the pipe orifice at the top end of the water injection pipe is recovered, on one hand, water which needs to react with the dry ice is timely supplied, and on the other hand, the waste of water caused by continuous water flowing after the fire extinguishing is finished is avoided.

As a further scheme of the invention, the left side wall of the dry ice carrying box is communicated with an air duct, and the air duct is communicated with the outer side wall of the case and communicated with an air vent on the second sealing plate; the during operation, the vent pipe does not carry out the shutoff when putting out a fire, can cause the loss of carbon dioxide when putting out a fire, this technical scheme is when the mechanism of putting out a fire is not opened, vent pipe and outside air intercommunication make dry ice a small amount of sublimed carbon dioxide under normal conditions can in time get rid of through vent pipe, be unlikely to lead to the dry ice to bear the pressure increase in the case, the explosion that roughly expands, when the mechanism of putting out a fire opens, the third closing plate is sealed with vent pipe, make the carbon dioxide that generates can not flow through vent pipe, reduce the loss of carbon dioxide.

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

1. the invention is provided with the fire extinguishing mechanism and the sealing mechanism, when the processor catches fire, the smoke sensor receives smoke signals to open the peripheral circuit switch, the sealing mechanism is electrified to start, the sealing mechanism is opened simultaneously to seal the whole case, thereby preventing carbon dioxide from directly discharging out of the case to reduce the fire extinguishing speed, the fire extinguishing mechanism is started, the power of the fire extinguishing mechanism is provided by the gravity of the water falling in the water tank, thereby the dry ice in the dry ice bearing case intermittently falls into the reaction box to ensure that the dry ice and the water can fully react, and the water in the reaction box is heated by the high temperature in the case through the heat dissipation plate, thereby improving the generation speed of the carbon dioxide, ensuring the timeliness of fire extinguishing, simultaneously generating the carbon dioxide while sealing the space of the processor, and fully distributing the carbon dioxide in the whole processor, thereby reducing the density of oxygen in the treater, reaching the separation of oxygen and burning point to can put out the intensity of a fire in time, avoid the treater spontaneous combustion to cause the problem of huge loss and produce.

2. According to the invention, by arranging the drainage mechanism, when the processor catches fire, the connecting rod and the metal power connection sleeve are sleeved until the metal power connection sleeve contacts the power connection coil, so that the motor is electrified, the motor is started and drives the rotating turbine to start rotating, under the action of the rotating turbine, the rotating turbine is ensured to quickly discharge air in the case when the sealing mechanism is opened, generated carbon dioxide flows down from the reaction box in time and is distributed in the whole case space, the contact between the processor and oxygen is isolated in time, the fire extinguishing speed is improved, and the damage degree of the processor is reduced.

3. According to the invention, the stirring mechanism is arranged, the stirring blades rotate, so that the full reaction of the dry ice and the water is accelerated, the generation speed of the carbon dioxide is increased, a large amount of heat can be absorbed when the dry ice and the water react to generate the carbon dioxide, the heat absorption speed is increased through the stirring of the stirring blades, the temperature in the case is effectively reduced, and the fire extinguishing efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a first schematic view of the overall structure of the present invention;

FIG. 2 is a second schematic view of the overall structure of the present invention;

FIG. 3 is a schematic sectional view of the fire extinguishing mechanism according to the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is an enlarged view of FIG. 4 at B;

FIG. 6 is a first cross-sectional view of the general structure of the present invention;

FIG. 7 is a second cross-sectional view of the general structure of the present invention;

FIG. 8 is a schematic view showing the structure of the stirring mechanism according to the present invention;

FIG. 9 is a schematic view of the connection of the drainage mechanism according to the present invention;

FIG. 10 is a schematic view of the configuration of the vent tube and the second seal plate in the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

the device comprises a case 1, a first heat dissipation port 101, a second heat dissipation port 102, a cover plate 2, a mounting door 3, a mounting plate 4, a processor 5, a dry ice carrying box 6, a reaction box 7, a gas dissipation hole 8, a smoke sensor 9, a heat dissipation plate 10, a support rod 11, a first sealing plate 12, a push plate 13, a push groove 14, a rotating shaft 15, a driving impeller 16, a toggle plate 17, a toggle rod 18, a water tank 19, a water injection pipe 20, a first de-fixation soft magnet 21, a first excitation coil 22, a first slide rod 23, a second sealing plate 24, a first magnetic plate 25, a first return spring 26, an air inlet 27, a second de-fixation soft magnet 28, a second excitation coil 2801, a second slide rod 29, a third sealing plate 30, a second magnetic plate 31, a second return spring 32, an air outlet 33, an electric connection seat 34, a metal electric connection sleeve 35, a motor 36, a connection rod 37, an electrified coil 38, a rotating turbine 39, a rotating turbine 40, the device comprises a driving gear 42, a driving rack 43, a U-shaped pushing frame 44, a fourth sealing plate 45, a pushing block 46, a telescopic reset rod 47 and an air duct 48.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: a safety system based on a cloud computing processor comprises a case 1, wherein the case 1 comprises a cover plate 2, a mounting door 3, a mounting plate 4, a first heat dissipation port 101 and a second heat dissipation port 102, the cover plate 2 is connected to the inner side wall of the top end of the case 1 in a sliding manner, the mounting door 3 is connected to the right side wall of the case 1 in a sliding manner, the mounting plate 4 is fixedly connected to the inner side wall of the case 1, the top end of the mounting plate 4 and the bottom end of the inner side of the case 1 are fixedly connected with a plurality of processors 5, the inner side wall of the top end of the case 1 is provided with a fire extinguishing mechanism, the fire extinguishing mechanism comprises a dry ice bearing box 6, the dry ice bearing box 6 is fixedly connected to the bottom end of the cover plate 2, the bottom end of the dry ice bearing box 6 is fixedly connected with a reaction box 7, the side wall of the reaction box 7 is provided, the first sealing plate 12 is sealed at the bottom of the dry ice bearing box 6 in a sliding manner, the bottom of the first sealing plate 12 is symmetrically and fixedly connected with pushing plates 13, the bottoms of the two pushing plates 13 are connected with a stirring mechanism together, the side wall of each pushing plate 13 is provided with a pushing groove 14, the inner side wall of the reaction box 7 is symmetrically and rotatably connected with a rotating shaft 15, the surface of each rotating shaft 15 is fixedly connected with a driving impeller 16, the surface of each rotating shaft 15 is fixedly connected with a poking disk 17, the poking disk 17 is arranged at the inner side of the driving impeller 16, a poking rod 18 is fixedly connected at the position, close to the edge, on the surface of the poking disk 17, the poking rod 18 is slidably connected in the pushing groove 14, the bottom of the cover plate 2 is fixedly connected with a water tank 19, the bottom of the water tank 19 is symmetrically communicated, the sealing mechanism is used for sealing the first heat dissipation port 101 and the second heat dissipation port 102 when an electric appliance catches fire, the top ends of the water injection pipes 20 are jointly provided with a sealing mechanism, and the sealing mechanism is triggered by the sealing mechanism to release the sealing of the water injection pipes 20;

when the computer works in summer, in the prior art, because the weather temperature is high, the processor inside the computer runs at high speed, the temperature of the processor cannot be timely reduced, and finally the processor catches fire, but in the prior art, the processor of the computer lacks of a fire extinguishing function, when the processor catches fire, the fire cannot be quickly extinguished, so that fire can be caused, and serious loss is caused, the sealing mechanism is communicated through an external circuit, when the processor 5 in the case 1 catches fire, the smoke sensor 9 receives smoke signals, the external circuit switch is opened, so that the sealing mechanism is electrified and started, the sealing mechanism is opened, water in the water tank 19 flows into the reaction box 7 through the water injection pipe 20, and the impeller 16 is driven to rotate through the gravity of water flow falling, so that the poking disc 17 starts to rotate, and under the traction action of the pushing groove 14, when the driving impeller 16 continues to rotate, the poke rod 18 can lead the poke rod 18 to move downwards along the pushing groove 14 and simultaneously lead the water in the reaction box 7 to be heated through the high temperature in the machine box 1 through the heat radiation plate 10, thereby carbon dioxide generation speed has been improved, guarantee the promptness of putting out a fire, after putting out a fire and accomplishing, smog disappears, control through smoke transducer 9, make sealing mechanism closed by the outage, seal the mechanism simultaneously and be closed under sealing mechanism's linkage, the rivers stop, remaining carbon dioxide can be discharged from quick-witted incasement 1 automatically, this technical scheme, when sealing up through the space with the treater, generate carbon dioxide simultaneously, with the full carbon dioxide of whole treater, thereby reduce the density of oxygen in the treater, thereby reach the contact with oxygen and burning point, thereby can in time put out the intensity of a fire, avoid treater spontaneous combustion and cause huge loss's problem to produce.

As a further scheme of the invention, the sealing mechanism comprises a first soft magnet for desoliding 21, the first soft magnet for desoliding 21 is fixedly connected with the bottom end of the right side wall of the machine case 1, the two ends of the first soft magnet for desoliding 21 are symmetrically and fixedly connected with first exciting coils 22, the top end of the first soft magnet for desoliding 21 is symmetrically and fixedly connected with two first sliding rods 23, the surfaces of the two first sliding rods 23 are jointly and slidably connected with a second sealing plate 24, the bottom end of the second sealing plate 24 is fixedly connected with a first magnetic plate 25, the inner side wall of the second sealing plate 24 is provided with a flow guiding mechanism, a first return spring 26 is fixedly connected between the first magnetic plate 25 and the first soft magnet for desoliding 21, the first return spring 26 is sleeved on the surface of the first sliding rod 23, the side surface of the second sealing plate 24 is provided with an air inlet 27 communicated with a first heat dissipating port 101, the left side wall of the machine case 1 is fixedly connected with a second soft magnet for desoliding 28, the top ends of the second de-solid soft magnets 28 are symmetrically and fixedly connected with second slide bars 29, the two second slide bars 29 are jointly connected with a third sealing plate 30 in a sliding manner, the side surface of the third sealing plate 30 is provided with an air outlet 33 communicated with the second heat radiating port 102, the bottom end of the third sealing plate 30 is fixedly connected with a second magnetic plate 31, a second reset spring 32 is fixedly connected between the second magnetic plate 31 and the second de-solid soft magnets 28, and the second reset spring 32 is sleeved on the surface of the second slide bars 29; in operation, if the whole cabinet 1 is not sealed, part of the generated carbon dioxide directly exits the cabinet 1 to cause a failure in blocking oxygen, thereby reducing the fire extinguishing speed, and increasing the damage degree to the processor 5, the smoke sensor 9 controls the first excitation coil 22 and the second excitation coil 2801 to be energized to make the first de-fixation soft magnet 21 and the second de-fixation soft magnet 28 generate magnetism, respectively, when the processor 5 catches fire, the first de-fixation soft magnet 21 and the second de-fixation soft magnet 28 respectively start to attract the first magnetic plate 25 and the second magnetic plate 31 by magnetic force, the second sealing plate 24 and the third sealing plate 30 respectively move downwards, the air inlet 27 and the air outlet 33 are dislocated with the first heat dissipation port 101 and the second heat dissipation port 102, respectively, so that the first heat dissipation port 101 and the second heat dissipation port 102 are sealed by the second sealing plate 24 and the third sealing plate 30, the first return spring 26 and the second return spring 32 are compressed to enable the whole case 1 to be in a closed space, thereby ensuring that the generated carbon dioxide can be fully distributed in the whole cavity, the carbon dioxide cannot flow out from the air outlet 33 and the air inlet 27 on the side wall, and ensuring that the carbon dioxide can be in contact with the processor 5 and the oxygen, thereby improving the efficiency of fire extinguishing, after the fire extinguishing is completed, under the control of the smoke sensor 9, the peripheral circuit switch is closed, the magnetic force of the first de-solidification soft magnet 21 and the second de-solidification soft magnet 28 disappears, under the action of the first return spring 26 and the second return spring 32, the second sealing plate 24 and the third sealing plate 30 are in a sealing reset state, the air inlet 27 and the air outlet 33 are respectively in reset communication with the first heat dissipation port 101 and the second heat dissipation port 102, in order to ensure that the carbon dioxide can be fully distributed in the whole case 1, the oxygen density of the case 1 is reduced, and the chance, the problem of carbon dioxide directly discharge quick-witted case 1, lead to the speed of putting out a fire to reduce to the damage degree of treater 5 has been increased is solved.

As a further scheme of the invention, the drainage mechanism comprises two electric sockets 34, two metal electric connecting sleeves 35, a motor 36 and two air outlets, the electric sockets 34 are symmetrically and fixedly connected to the bottom end of the inner side of the case 1, the top ends of the electric sockets 34 are both fixedly connected with a connecting rod 37, an electric coil 38 is sleeved on the surface of the connecting rod 37, the metal electric connecting sleeves 35 penetrate through the inner side wall of the case 1 and are fixedly connected with the first sealing plate 12, the motor 36 is fixedly connected to the bottom end of the inner side of the case 1, the motor 36 is electrically connected with the metal electric connecting sleeves 35, the two air outlets are symmetrically arranged on the inner side wall of the case 1, the end part of an output shaft of the motor; when the sealing mechanism is started, air in the case 1 is exhausted due to acceleration, generated carbon dioxide is drained from a high position in time to be distributed on the whole case 1, the processor 5 is isolated from being contacted with oxygen, and by arranging the connecting rod 37 and the metal electric connection sleeve 35, when the second sealing plate 24 moves downwards, the connecting rod 37 and the metal connecting sleeve 35 are sleeved until the metal connecting sleeve 35 contacts the power coil 38, so that the motor 36 is powered on, the motor 36 is started, and the rotating turbine 39 is driven to rotate, under the action of the rotating turbine 39, when the sealing mechanism is opened, the rotating turbine 39 can quickly exhaust the air in the case 1, and the generated carbon dioxide is drained from the reaction box 7 in time, the space of the whole case 1 is filled with the carbon dioxide, the processor 5 is isolated from the oxygen in time, the fire extinguishing speed is improved, and the damage degree of the processor 5 is reduced.

As a further scheme of the invention, the stirring device comprises a rotating rod 40, two ends of the rotating rod 40 are rotatably connected to the bottom end of the poke rod 18, stirring blades 41 distributed in an array form are fixedly connected to the surface of the rotating rod 40, a driving gear 42 is fixedly connected to the surface of the rotating rod 40, the bottom end of the driving gear 42 is meshed with a driving rack 43, and the driving rack 43 is fixedly connected to the side wall of the reaction box 7; during operation, because dry ice can produce after falling and pile up, cause inboard dry ice contact water to need the process, cause the problem that carbon dioxide generates speed and slow to produce and produce, when first closing plate 12 removes about, under drive gear 42 and drive rack 43 meshing about, make axis of rotation 15 rotatory, impel the rotation of stirring leaf 41, thereby accelerate the abundant reaction of dry ice and water, improve carbon dioxide and generate speed, and can absorb a large amount of heats when dry ice and water reaction generate carbon dioxide, through the stirring of stirring leaf 41, improve endothermic speed, the inside temperature of quick-witted case 1 has effectively been reduced, thereby improve the efficiency of putting out a fire.

As a further scheme of the invention, the sealing mechanism comprises a U-shaped pushing frame 44 and a fourth sealing plate 45, the bottom end of the left side of the U-shaped pushing frame 44 is fixedly connected to the top of the second sealing plate 24, the bottom end of the right side of the U-shaped pushing frame 44 penetrates through the cover plate 2 and is in sliding connection with the cover plate 2, the fourth sealing plate 45 is sealed at the orifice of the top end of the water injection pipe 20, the top end of the fourth sealing plate 45 is fixedly connected with a pushing block 46, the inclined plane of the top end of the pushing block 46 is in contact with the inclined plane of the bottom end of the right side of the U-shaped pushing frame 44, the right side wall of the pushing block 46 is fixedly connected with a telescopic reset rod 47; when the fire extinguishing device works, when the third sealing plate 30 moves downwards, the U-shaped pushing frame 44 moves downwards, the inclined plane at the bottom end of the right side of the U-shaped pushing frame 44 is in contact extrusion with the inclined plane at the top end of the pushing block 46, the pushing block 46 drives the fourth sealing plate 45 to move rightwards, the top end opening of the water injection pipe 20 is opened, water flows out of the water injection pipe 20 into the reaction box 7, when fire extinguishing is finished, the third sealing plate 30 moves upwards, the U-shaped pushing frame 44 moves upwards, under the action of the telescopic reset rod 47, the top end opening of the water injection pipe 20 is sealed again by the fourth sealing plate 45, therefore, when fire extinguishing is required, the sealing of the top end opening of the water injection pipe 20 is automatically released, after fire extinguishing is finished, smoke disappears, the U-shaped pushing frame 44 resets, the sealing of the top end opening of the water injection pipe 20 by the fourth sealing plate 45 is restored, on one hand, water required, on the other hand, the waste of water caused by continuous water supply after fire extinguishing is finished is avoided.

As a further scheme of the invention, the left side wall of the dry ice carrying box 6 is communicated with an air duct 48, and the air duct 48 is communicated with the outer side wall of the case 1 and communicated with an air vent on the second sealing plate 24; the during operation, vent-pipe 48 does not carry out the shutoff when putting out a fire, can cause the loss of carbon dioxide when putting out a fire, this technical scheme is when the mechanism of putting out a fire is not opened, vent-pipe 48 and outside air intercommunication, make the carbon dioxide of dry ice a small amount of sublimations under the normal condition can in time get rid of through vent-pipe 48, be unlikely to lead to the pressure increase in the dry ice bearing box 6, the explosion of roughly expanding, when the mechanism of putting out a fire opens, third closing plate 30 is sealed with vent-pipe 48, make the carbon dioxide that generates can not flow through vent-pipe 48, reduce the loss of carbon dioxide.

The working principle is as follows: the sealing mechanism is communicated through an external circuit, when a processor 5 in the case 1 catches fire, a smoke sensor 9 receives a smoke signal, a circuit switch of the external circuit is opened, the sealing mechanism is electrified to be started, meanwhile, a sealing mechanism is opened, water in a water tank 19 is enabled to flow into a reaction box 7 through a water injection pipe 20, a driving impeller 16 is enabled to rotate through the gravity of falling of water flow, a poking disc 17 is enabled to start rotating, the poking rod 18 is enabled to move upwards along a pushing groove 14 under the traction action of the pushing groove 14, the poking rod 18 is driven to move leftwards, a first sealing plate 12 enables a dry ice bearing box 6 to be opened, dry ice falls into the reaction box 7 and fully reacts with water, a large amount of carbon dioxide is generated after the dry ice reacts with the water, the large amount of carbon dioxide can flow out of the reaction box 7 through a gas dispersing hole 8 and then is distributed in the case 1, and the oxygen content in the, therefore, the fire extinguishing effect is achieved, when the driving impeller 16 continues to rotate, the poke rod 18 can enable the poke rod 18 to move downwards along the pushing groove 14 under the traction action of the pushing groove 14, the poke rod 18 moves rightwards, the first sealing plate 12 seals the bottom end of the dry ice bearing box 6 again, the dry ice is enabled to fall down quantitatively and fully react with water, water in the reaction box 7 is enabled to be heated through high temperature in the case 1 through the heat dissipation plate 10, the carbon dioxide generation speed is improved, the timeliness of fire extinguishing is guaranteed, after the fire extinguishing is completed, smoke disappears, the sealing mechanism is powered off and closed through the control of the smoke sensor 9, the sealing mechanism is closed under the linkage of the sealing mechanism, water flow stops, and residual carbon dioxide can be automatically discharged from the case 1.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a safety coefficient based on cloud calculates treater, includes quick-witted case (1), quick-witted case (1) is including apron (2), installation door (3), mounting panel (4), first thermovent (101) and second thermovent (102), apron (2) sliding connection is on the inside wall on quick-witted case (1) top, installation door (3) sliding connection is on quick-witted case (1) right side wall, mounting panel (4) fixed connection is on quick-witted case (1) inside wall, a plurality of treater (5) of mounting panel (4) top and quick-witted case (1) inboard bottom fixedly connected with, its characterized in that: the fire extinguishing mechanism is arranged on the inner side wall of the top end of the case (1), the fire extinguishing mechanism comprises a dry ice bearing box (6), the dry ice bearing box (6) is fixedly connected to the bottom end of the cover plate (2), the bottom end of the dry ice bearing box (6) is fixedly connected with a reaction box (7), the side wall of the reaction box (7) is provided with a gas dispersing hole (8), the bottom end of the reaction box (7) is fixedly connected with a smoke sensor (9), the inner wall of the left side of the reaction box (7) is symmetrically and fixedly connected with two support rods (11), the surfaces of the two support rods (11) are jointly and slidably connected with a first sealing plate (12), the first sealing plate (12) is slidably sealed at the bottom end of the dry ice bearing box (6), the bottom end of the first sealing plate (12) is symmetrically and fixedly connected with push plates (13, the reactor is characterized in that a pushing groove (14) is formed in the side wall of the pushing plate (13), a rotating shaft (15) is symmetrically and rotatably connected to the inner side wall of the reaction box (7), a driving impeller (16) is fixedly connected to the surface of the rotating shaft (15), a poking disk (17) is fixedly connected to the surface of the rotating shaft (15), the poking disk (17) is arranged on the inner side of the driving impeller (16), a poking rod (18) is fixedly connected to the position, close to the edge, of the poking disk (17) on the surface, the poking rod (18) is slidably connected into the pushing groove (14), a water tank (19) is fixedly connected to the bottom end of the cover plate (2), two water injection pipes (20) are symmetrically communicated to the bottom end of the water injection pipe (20), the bottom end of each water injection pipe (20) penetrates through the reaction box (7) and the pipe orifice of, the sealing mechanism is used for sealing the first heat dissipation port (101) and the second heat dissipation port (102) when an electric appliance catches fire, the sealing mechanism is jointly arranged at the top end of the water injection pipe (20), and the sealing mechanism is triggered by the sealing mechanism to release the sealing of the water injection pipe (20).

2. A cloud computing processor based security system in accordance with claim 1, wherein: the sealing mechanism comprises a first de-solid soft magnet (21), the first de-solid soft magnet (21) is fixedly connected to the bottom end of the right side wall of the case (1), two ends of the first de-solid soft magnet (21) are symmetrically and fixedly connected with first exciting coils (22), the top end of the first de-solid soft magnet (21) is symmetrically and fixedly connected with two first sliding rods (23), the surfaces of the two first sliding rods (23) are jointly and slidably connected with a second sealing plate (24), the bottom end of the second sealing plate (24) is fixedly connected with a first magnetic plate (25), the inner side wall of the second sealing plate (24) is provided with a drainage mechanism, a first reset spring (26) is fixedly connected between the first magnetic plate (25) and the first de-solid soft magnet (21), the first reset spring (26) is sleeved on the surface of the first sliding rod (23), the side surface of the second sealing plate (24) is provided with an air inlet (27) communicated with a first heat dissipation port (101), the cabinet is characterized in that a second de-solid soft magnet (28) is fixedly connected to the left side wall of the cabinet (1), second excitation coils (2801) are fixedly connected to two ends of the second de-solid soft magnet (28), second slide bars (29) are symmetrically and fixedly connected to the top end of the second de-solid soft magnet (28), a third sealing plate (30) is connected to the two second slide bars (29) in a sliding mode, an air outlet (33) communicated with the second heat dissipation port (102) is formed in the side face of the third sealing plate (30), a second magnetic plate (31) is fixedly connected to the bottom end of the third sealing plate (30), a second reset spring (32) is fixedly connected between the second magnetic plate (31) and the second de-solid soft magnet (28), and the second reset spring (32) is sleeved on the surface of the second slide bar (29).

3. A cloud computing processor based security system in accordance with claim 2, wherein: drainage mechanism includes that two connect electrical socket (34), two metals connect electric cover (35), motor (36) and two gas vents, connect electrical socket (34) symmetry fixed connection in quick-witted case (1) inboard bottom, connect the equal fixedly connected with connecting rod (37) in electrical socket (34) top, connecting rod (37) surface has cup jointed electrical coil (38), the metal connect electric cover (35) run through behind quick-witted case (1) inside wall and with first closing plate (12) fixed connection, motor (36) fixed connection in quick-witted case (1) inboard bottom, motor (36) connect electric cover (35) electric connection with the metal, two the gas vent symmetry is seted up on quick-witted case (1) inside wall, the output shaft tip fixedly connected with rotating turbine (39) of motor (36), rotating turbine (39) pass the gas vent.

4. A cloud computing processor based security system in accordance with claim 1, wherein: agitating unit includes dwang (40), the bottom of connection in poker rod (18) is rotated at the both ends of dwang (40), dwang (40) fixed surface is connected with stirring leaf (41) that array distributes, dwang (40) fixed surface is connected with drive gear (42), drive gear (42) bottom meshing has drive rack (43), drive rack (43) fixed connection is on the lateral wall of reaction box (7).

5. A cloud computing processor based security system in accordance with claim 1, wherein: seal the mechanism and include U-shaped propelling movement frame (44) and fourth closing plate (45), U-shaped propelling movement frame (44) left side bottom fixed connection is at the top of second closing plate (24), U-shaped propelling movement frame (44) right side bottom run through behind apron (2) and with apron (2) sliding connection, fourth closing plate (45) seal in water injection pipe (20) top mouth of pipe, fourth closing plate (45) top fixedly connected with promotes piece (46), promote piece (46) top inclined plane and the contact of U-shaped propelling movement frame (44) right side bottom inclined plane, promote flexible release link (47) of piece (46) right side wall fixedly connected with, flexible release link (47) keep away from the one end fixed connection that promotes piece (46) on the inside wall of water tank (19).

6. A cloud computing processor based security system in accordance with claim 1, wherein: an air duct (48) is communicated with the left side wall of the dry ice carrying box (6), and the air duct (48) is communicated with the outer side wall of the case (1) and communicated with an air vent on the second sealing plate (24).