CN112114627A - Big data computer platform - Google Patents

Abstract

The invention relates to a big data computer platform, which effectively solves the problems of overlarge heat productivity, lack of effective heat dissipation measures, weak protection of computer data and less protection measures under a line of the existing computer; the technical scheme includes that the intelligent cabinet comprises a cabinet body, a plurality of groups of machine bases are fixedly connected to the inner walls of two sides of the cabinet body at equal intervals, a server is placed on each group of machine bases, a plurality of server sliding grooves are formed in the plurality of machine bases at equal intervals, a plurality of machine supports are connected in the plurality of server sliding grooves in a sliding mode, the machine supports are in contact connection with the lower end faces of the servers, a head protection shell and a tail protection shell are arranged at two ends of each machine base, a plug fixing plate is arranged on each tail; according to the invention, the lifting server, the head protection shell and the tail protection shell are arranged, and the water cooling plate and the air cooling device are arranged below the server, so that the server is effectively radiated, the data of the server is protected, and a good data protection effect is achieved.

Description

Big data computer platform

Technical Field

The invention relates to the technical field of mathematical research and teaching equipment, in particular to a big data computer platform.

Background

As is well known, an electronic computer, commonly known as a computer, is an electronic computing machine for high-speed computation, which can perform numerical computation, logic computation, and memory function, and is widely used in various fields;

the mathematics is taken as a basic subject of many subjects, the study and teaching of the mathematics are very important, the study and teaching of the mathematics often meet many mathematical operations which are difficult to calculate, function solution or equation calculation and the like, the calculated amount is large, the calculation by manpower is very time-consuming and labor-consuming, a supercomputer is often needed to carry out auxiliary calculation on the complex mathematical operations, when the big data analysis of the mathematical operation result is carried out to find out the big data rule of the mathematics, the calculation by manpower is obviously unrealistic, therefore, a special big data computer is needed to be used for auxiliary calculation, when the big data computer carries out a large amount of mathematical calculations, the CPU operation speed of the big data computer is too fast, the heat productivity of the CPU is increased, the heat productivity of the same memory is increased, after the heat productivity is increased, the traditional heat dissipation method is not enough to dissipate heat, so that the temperature in the big data computer is increased, and the internal elements of the big data computer are greatly damaged after the temperature is increased: the phenomena of halt, restart and the like easily occur after the temperature of the CPU rises, which is a great loss for mathematical calculation, particularly the phenomena of halt and restart occur during important calculation, the efficiency of mathematical research is seriously influenced, and certain attack can be caused to the mind of a researcher; the large tertiary computer often runs at a high temperature, so that the service life of electric elements of the large data computer is shortened rapidly, the elimination of equipment, particularly hard disks and power supplies, is accelerated, and the equipment which can be used for a long time needs to be replaced continuously, so that the great waste is caused; the temperature rise of the big data computer can cause power supply problems, such as unstable power supply voltage, easy burning of electrical elements, even power explosion and the like, so that the heat dissipation of the mathematic big data computer is very important;

in the mathematical research, the storage of the calculation data becomes indispensable as the calculation data is researched and stored. Existing computer storage devices are classified into many types, wherein hard disks are increasingly favored by researchers at higher storage speeds and storage capacities, and as data is researched more and more frequently, the security of the data is more and more important, but at present, data of a computer is basically not protected, so that researchers' hard research results are stolen by others, and moreover, most of the existing data protection is on-line protection, neglecting the offline protection, the data can be stolen and downloaded by someone with no intention to cause huge loss on the research work, moreover, the existing offline protection mostly uses the protection means such as a true and false USB port, although the protection means can reduce the risk of data theft, however, the user is very complicated to use and has poor protection effect, so that a big data computer platform with a safety protection function is very important;

in conclusion, the existing big data computer platform has the defects of overlarge computer heating value, lack of effective heat dissipation measures, weak protection on computer data and less protection measures under the computer.

The present invention therefore provides a big data computer platform to address this problem.

Disclosure of Invention

In view of the above situation, in order to overcome the defects of the prior art, the invention provides a big data computer platform, which effectively solves the problems that the computer of the prior device has overlarge heat productivity, lacks effective heat dissipation measures, has weak protection on computer data, and has fewer offline protection measures.

The intelligent cabinet comprises a cabinet body, wherein a plurality of groups of machine bases are fixedly connected with the inner walls of two sides of the cabinet body, a server is placed on each group of machine bases, a plurality of server sliding grooves are formed in the plurality of machine bases, a plurality of machine supports are vertically and slidably connected in the plurality of server sliding grooves, the machine supports are in contact connection with the lower end face of the server, a head protective shell and a tail protective shell which are slidably connected to the cabinet body are arranged at two ends of each machine base, a plug fixing plate which is connected to the cabinet body in a front-back sliding mode is arranged above the tail protective shell, and a plug pressing plate is vertically and slidably connected to one side, close;

cabinet body both sides outer wall equidistance sliding connection a plurality of lifter, lifter one end and a plurality of corresponding the machine hold in the palm and link to each other, the both sides of the lifter other end be provided with tooth, lifter one side meshing have the lift semi-gear of rotation connection on the cabinet body, lift semi-gear opposite side meshing have the first action wheel that opens and shuts of rotation connection on the cabinet body, lifter opposite side meshing have the rotation to connect the drive gear that opens and shuts on the cabinet body, drive gear opposite side meshing that opens and shuts have the second of rotation connection on the cabinet body action wheel that opens and shuts, first action wheel that opens and shuts and second open and shut on action wheel respectively coaxial fixedly connected with rotate the first of connection on the cabinet body open and shut from driving wheel and second and open and shut from the driving wheel, head protective housing and afterbody protective housing below all be provided with tooth, first open and shut from driving wheel and second open and shut from driving wheel all with head and afterbody protective (ii) a

The two sides of the cabinet body are provided with U-shaped chutes, the plug pressing plate is connected in the U-shaped chutes in a sliding way, the two sides of the U-shaped chute are respectively provided with a left pressing rod and a right pressing rod which are connected with the cabinet body in a sliding way, the lower end of the left pressing rod is provided with teeth, one side of the left pressing rod is meshed with a left transmission gear rotationally connected to the cabinet body, one side of the left transmission gear is engaged with a left driving gear which is rotationally connected with the cabinet body, the lower end of the right pressing rod is provided with teeth, one side of the right pressing rod is engaged with a right transmission gear which is rotationally connected with the cabinet body, one side of the right transmission gear is engaged with a right driving gear which is rotationally connected with the cabinet body, the left transmission gear, the right transmission gear and the lifting half gear are connected with a motor through a transmission structure, and the motor is externally connected with a power supply and a control unit.

Preferably, the transmission structure is that two sides of the cabinet body are rotatably connected with a reciprocating driving gear, one side of the reciprocating driving gear is meshed with a switch gear rotatably connected to the cabinet body, one side of the switch gear is meshed with a first reciprocating transmission gear rotatably connected to the cabinet body, one side of the first reciprocating transmission gear is coaxially and fixedly connected with a second reciprocating transmission gear, one side of the second reciprocating transmission gear is meshed with a third reciprocating transmission gear rotatably connected to the cabinet body, one sides of the second reciprocating transmission gear and the third reciprocating transmission gear are respectively coaxially and fixedly connected with a second reciprocating transmission half gear and a third reciprocating transmission half gear, one sides of the second reciprocating transmission half gear and the third reciprocating transmission half gear are respectively meshed with a fourth reciprocating transmission gear rotatably connected to the cabinet body, and two sides of the fourth reciprocating transmission gear are respectively coaxially and fixedly connected with an opening-closing half gear and a pressing half gear, the semi-gear that opens and shuts one side meshing have the switching-over gear that opens and shuts, the switching-over gear with the lift semi-gear between link to each other through belt transmission structure, press the semi-gear with left side driving gear and right side driving gear between link to each other through belt transmission structure, reciprocal driving gear pass through belt transmission structure and elevator motor and link to each other, elevator motor external power supply and the control unit.

Preferably, lift semi-gear top be provided with and rotate the trigger ring of connection on the cabinet body, the coaxial cover in the trigger ring be equipped with the spacing three hornblocks of fixed connection on the cabinet body, spacing three hornblock closed angle down, trigger ring lower extreme fixedly connected with trigger sleeve, lift semi-gear one side be fixed with the trigger bar, the trigger bar with trigger sleeve contact, trigger sleeve sliding connection have the trigger block, the trigger block with trigger sleeve between link to each other through the spring, trigger block contact connect on spacing three hornblocks, trigger ring upper end articulated have the bolt of sliding connection on the cabinet body, the lifter on seted up the pinhole, bolt sliding connection be in the pinhole.

Preferably, the air conditioner is characterized in that an air ventilation bin is arranged below the machine base, an air ventilation opening is formed in the machine base, an air cooling bin is arranged above the cabinet body, a fan is rotatably connected to the cabinet body and is arranged in the air cooling bin, the air cooling bin is connected with the air ventilation bin through an air guide pipe, and the fan is connected with a power supply and a control unit.

Preferably, the water cooling device is characterized in that a water cooling plate which is connected to the base in a sliding mode is arranged below the server, two first lifting rods are hinged to the lower portion of the water cooling plate, second lifting rods are hinged to the other ends of the two first lifting rods, lifting turbines are fixedly connected to the other ends of the two second lifting rods, the two lifting turbines are rotatably connected to the ventilation bin, a lifting worm which is rotatably connected to the ventilation bin is arranged between the two lifting turbines, the lifting worm is meshed with the two lifting turbines, and the lifting worm is connected to a water cooling driving gear which is rotatably connected to the ventilation bin through a belt transmission structure;

the two sides below the water cooling plate are respectively provided with a ventilation cooling plate which is connected in a ventilation bin in a sliding manner, a screw rod which is connected in the ventilation bin in a rotating manner is arranged between the two ventilation cooling plates, the two ends of the screw rod are coaxially sleeved with screw rod nuts, the screw rod is in threaded fit with the screw rod nuts, the thread turning directions of the two ends of the screw rod are opposite, the two screw rod nuts are fixedly connected to the lower end face of the ventilation cooling plate, the screw rod is coaxially and fixedly connected with a screw rod gear, one side of the screw rod gear is meshed with a screw rod transmission gear which is connected in the ventilation bin in a rotating manner, and the screw rod transmission gear is connected with a ventilation cooling gear which is connected in the ventilation bin in a rotating manner through a belt transmission;

the aeration cooling gear with the water-cooling driving gear between be provided with the reversing gear of rotation connection in the ventilation storehouse, the same time of reversing gear only mesh with arbitrary one in water-cooling driving gear and the aeration cooling gear, coaxial rotation in reversing gear one side have the one-way wheel that resets, the coaxial rotation in one side of the one-way wheel that resets be connected with the action wheel that resets, the action wheel that resets be located open and shut drive gear one side, the action wheel that resets with the one-way wheel that resets between coaxial fixedly connected with rotate the reversing action wheel of connection in the ventilation storehouse, reversing action wheel one side be provided with the switching motor of fixed connection in the ventilation storehouse, the output shaft of switching motor on fixedly connected with reversing motor gear, reversing motor gear with the reversing action wheel mesh mutually, reversing action wheel one side be provided with the switching electric putter of rotation connection on the reversing action wheel, the reversing motor and the reversing electric push rod are connected with a power supply and a control unit.

Preferably, a water-cooled radiator is arranged below the cabinet body, the water-cooled radiator is connected with the water-cooled plate and the ventilation and cooling plate through a water-cooled tube, and the water-cooled radiator is externally connected with a power supply and a control unit.

Preferably, one side of the switch gear is provided with a switch electric push rod fixedly connected to the cabinet body, the switch gear is rotatably connected to the switch electric push rod, and the switch electric push rod is connected with the power supply and the control unit.

The invention improves the defects of the existing big data computer platform that the computer has overlarge heat productivity and lacks effective heat dissipation measures, the protection of the computer data is weak and the protection measures under the line are less

The lifting device comprises a cabinet body, a head protection shell, a tail protection shell, a lifting half gear, a head fixing plate, a plug pressing plate, a transmission structure, a lifting half gear, a head protection shell, a tail protection shell, a head fixing plate, a plug pressing plate, a lifting half gear, a transmission structure and a lifting half gear, wherein the cabinet body is arranged on the two sides of the cabinet body; through setting up air-cooled storehouse and water-cooling board to through setting up sliding connection's ventilation cooling board, make the radiating effect of switching that the device can be free, make the server when being in different operating condition, can switch different heat radiation module, reach better radiating effect with this, dispel the heat to the server effectively, prevent that the server from overheated leading to damaging.

The invention lifts the server through the lifting rod, comprehensively protects the plug wire end and the switch end of the server through the head protective shell and the tail protective shell, realizes the coordinated plugging and unplugging of the plug through the plug fixing plate and the plug pressing plate, and coordinates the plug and the switch end through the transmission structure, thereby achieving the intelligent protection effect of the server, and realizes the intelligent heat radiation of the server by arranging the air cooling bin above the cabinet body, arranging the water cooling bin below the cabinet body, and arranging the water cooling plate and the ventilation cooling plate below the server, thereby realizing the regulation and control of the temperature of the server, and when the server is in different heating states, intelligently using heat radiation modules with different effects to radiate the server, the invention can effectively radiate the server, can carry out data protection on the server, and realize the hardware protection of the server, the data protection effect is good.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective view of the transmission structure of the present invention.

Fig. 3 is a perspective view of the shelling transmission of the present invention.

Fig. 4 is a perspective view of a server protection part according to the present invention.

Fig. 5 is a schematic diagram of a transmission structure of a server protection part of the invention.

Fig. 6 is a schematic transmission diagram of the plug plugging part of the invention.

Fig. 7 is a schematic view of the transmission of the lifting gear part of the invention.

Fig. 8 is a schematic cross-sectional view of a trigger ring of the present invention.

FIG. 9 is a schematic view of a water-cooled tube portion of the present invention.

Fig. 10 is a first schematic view of a transmission structure of a water-cooling plate according to the present invention.

FIG. 11 is a second schematic view of the transmission part of the water-cooled plate of the present invention.

FIG. 12 is a third schematic view of the transmission part of the water-cooled plate of the present invention.

Fig. 13 is a fourth schematic view of the transmission part of the water-cooling plate of the invention.

Fig. 14 is a schematic sectional view of the cabinet of the present invention.

Fig. 15 is a schematic view of the opening and closing transmission structure of the present invention.

Fig. 16 is a schematic view of a plug press portion of the present invention.

Fig. 17 is a schematic cross-sectional view of a one-way wheel structure of the present invention.

Detailed Description

The foregoing and other aspects, features and advantages of the invention will be apparent from the following more particular description of embodiments of the invention, as illustrated in the accompanying drawings in which reference is made to figures 1 to 17. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

In the description of the present invention, it is to be understood that the terms "upper", "middle", "outer", "inner", and the like, indicate orientations or positional relationships, are used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referenced components or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

The embodiment I is characterized by comprising a cabinet body 1, wherein the cabinet body 1 comprises four vertical plates and two transverse plates which are parallel to each other, the four vertical plates and the two transverse plates are connected to form the cabinet body 1, a plurality of groups of machine bases 2 are fixedly connected to the inner walls of the two sides of the cabinet body 1 at equal intervals, each two groups of machine bases 2 can support one server 3, the server 3 is placed on each group of machine bases 2, an external power supply and an external display and control module of the server 3 are arranged on the plurality of machine bases 2 at equal intervals, a plurality of server sliding grooves 4 are formed in the plurality of server sliding grooves 4, organic supports 5 are connected in a sliding mode in the server sliding grooves 4, the machine supports 5 can slide up and down in the server sliding grooves 4, the machine supports 5 are in contact connection with the lower end faces of the servers 3, the servers 3 can be fixed on the machine supports 5, and the servers 3 cannot shake, the two ends of the base 2 are provided with a head protective shell 6 and a tail protective shell 7 which are connected with the cabinet body 1 in a sliding way, the head protective shell 6 and the tail protective shell 7 are cuboids provided with grooves, the head protective shell 6 and the tail protective shell 7 can be sleeved at a plug end and a switch end of the server 3 to protect the server 3, and flexible materials such as sponge and the like can be placed in the head protective shell 6 and the tail protective shell 7 to reduce the abrasion to the server 3, a plug fixing plate 8 which is connected with the cabinet body 1 in a sliding way is arranged above the tail protective shell 7, network interfaces and power interfaces which are arranged transversely are fixed on the plug fixing plate 8, one side of the plug fixing plate 8, which is close to the server 3, is connected with a plug pressing plate 9 in a sliding way, the plug pressing plate 9 is connected with the network interfaces, the power interface and the clips on the network cable jack are separated from the interface at the rear end of the server 3;

the cabinet body 1 both sides outer wall equidistance sliding connection a plurality of lifter 10, lifter 10 one end and a plurality of corresponding machine support 5 link to each other, each lifter 10 is connected with a set of machine support 5 that is located the coplanar, through set up lifter 10 in cabinet body 1 both sides, can realize the lift control to the server 3 that is located corresponding machine support 5 through controlling lifter 10, the both sides of the lifter 10 other end be provided with the tooth, lifter 10 one side meshing have the lift half gear 11 of rotation connection on cabinet body 1, lift half gear 11 opposite side meshing have first drive wheel 12 that opens and shuts, lifter 10 opposite side meshing have drive gear 13 that opens and shuts, drive gear 13 opposite side meshing have second drive wheel 14 that opens and shuts, first drive wheel 12 that opens and shuts and shut and is connected with first driven wheel 15 that opens and shuts and shut and follows the driving wheel 16 with the second on drive wheel 14 respectively coaxial fixedly, the first opening and closing driven wheel 15 and the second opening and closing driven wheel 16 can be driven to rotate through rotation of the lifting half gear 11, so that opening and closing of the head protection shell 6 and the tail protection shell 7 are controlled intermittently, teeth are arranged below the head protection shell 6 and the tail protection shell 7, and the first opening and closing driven wheel 15 and the second opening and closing driven wheel 16 are meshed with the head protection shell 6 and the tail protection shell 7; when the lifting rod 10 needs to descend, the lifting half gear 11 rotates reversely to drive the bolt 40 on the trigger ring 36 to be pulled out of the pin hole 41, the lifting half gear 11 drives the lifting rod 10 to move downwards, the lifting rod 10 moves downwards to drive the second opening and closing driving wheel 14, the second opening and closing driving wheel 14 drives the head protective shell 6 and the tail protective shell 7 to be opened, the server 3 just descends on the base 2, the lifting rod 10 is separated from the opening and closing transmission gear 13, then the lifting half gear 11 continues to rotate to drive the first opening and closing driving wheel 12, the first opening and closing driving wheel 12 drives the head protective shell 6 and the tail protective shell 7 to be closed, when the server 3 needs to ascend, the lifting half gear 11 rotates forwards, firstly the lifting half gear 11 drives the first opening and closing driving wheel 12 to rotate, the first opening and closing driving wheel 12 rotates to drive the head protective shell 6 and the tail protective shell 7 to be opened, and then the lifting half, the lifting rod 10 drives the server 3 to rise, meanwhile, the lifting rod 10 drives the second opening and closing driving wheel 14 to rotate, the second opening and closing driving wheel 14 drives the head protective shell 6 and the tail protective shell 7 to reset, when the server 3 rises to a specified position, the lifting half gear 11 touches the trigger ring 36, the bolt 40 on the trigger ring 36 is inserted into the pin hole 41 of the lifting rod 10, and the limiting of the lifting rod 10 is realized;

the improved plug cabinet is characterized in that U-shaped sliding grooves 17 are formed in two sides of the cabinet body 1, each U-shaped sliding groove 17 comprises a transverse groove, two ends of each transverse groove penetrate through two vertical grooves, the plug pressing plate 9 is connected in the U-shaped sliding groove 17 in a sliding manner, two ends of the plug pressing plate 9 are fixedly connected with transverse racks, a left pressing rod 18 and a right pressing rod 19 which are connected to the cabinet body 1 in a sliding manner are arranged on two sides of each U-shaped sliding groove 17, teeth are arranged at the lower end of each left pressing rod 18, one side of each left pressing rod 18 is meshed with a left transmission gear 20, each left transmission gear 20 rotates to drive the left pressing rod 18 to move up and down, a left driving gear 21 is meshed with one side of each left transmission gear 20, teeth are arranged at the lower end of each right pressing rod 19, a right transmission gear 22 is meshed with one side of each right pressing, when the left driving gear 21 and the right driving gear 23 rotate forwards, the right pressing rod 19 is driven to move downwards, the right pressing rod 19 moves downwards to drive the plug pressing plate 9 to move downwards, then when the rack under the plug pressing plate 9 is meshed with the right driving gear 23, the plug pressing plate 9 is driven by the right driving gear 23 to move leftwards, the plug pressing plate 9 synchronously drives the plug fixing plate 8 to move leftwards, through controlling the tooth number of the left pressing plate 18 and the right pressing plate 19, when the left pressing plate 18 and the right pressing plate 19 press downwards, enough stroke is provided, one side of the left driving gear 21 and the right driving gear 23 can be coaxially fixed with a one-way gear, so that the left pressing plate 18 and the right pressing plate 19 cannot continuously move downwards after being pressed, thereby the network interface and the power interface are extracted, when the server 3 rises, the left driving gear 21 and the right driving gear 23 rotate forwards, firstly, the left pressing rod 18 moves downwards to drive the plug pressing plate 9 to move downwards, then the left driving gear 21 drives the plug pressing rod to move rightwards, and the network interface and the power interface are inserted into the server 3;

two sides of the cabinet body 1 are rotatably connected with a reciprocating driving gear 24, one side of the reciprocating driving gear 24 is engaged with a switch gear 25 which is rotatably connected on the cabinet body 1, one side of the switch gear 25 is engaged with a first reciprocating transmission gear 26 which is rotatably connected on the cabinet body 1, one side of the first reciprocating transmission gear 26 is coaxially and fixedly connected with a second reciprocating transmission gear 27, one side of the second reciprocating transmission gear 27 is engaged with a third reciprocating transmission gear 28 which is rotatably connected on the cabinet body 1, one sides of the second reciprocating transmission gear 27 and the third reciprocating transmission gear 28 are respectively coaxially and fixedly connected with a second reciprocating transmission half gear 29 and a third reciprocating transmission half gear 30, one sides of the second reciprocating transmission half gear 29 and the third reciprocating transmission half gear 30 are respectively engaged with a fourth reciprocating transmission gear 31 which is rotatably connected on the cabinet body 1, the two sides of the fourth reciprocating transmission gear 31 are respectively coaxially and fixedly connected with an opening and closing half gear 32 and a pressing half gear 33, one side of the opening and closing half gear 32 is engaged with an opening and closing reversing gear 34, the opening and closing reversing gear 34 is connected with the lifting half gear 11 through a belt transmission structure, the belt transmission structure comprises an opening and closing reversing belt pulley coaxially and fixedly connected to the opening and closing reversing gear 34 and a lifting belt pulley coaxially and fixedly connected to the lifting half gear 11, the lifting belt pulley is connected with the opening and closing reversing belt pulley through a belt, the pressing half gear 33 is connected with the left driving gear 21 and the right driving gear 23 through a belt transmission structure, the belt transmission structure comprises a left driving gear 23 and a right driving gear 23 which are mutually matched with the core of the pressing half gear 33, and the left driving gear 23 and the right driving gear 23 are coaxially and fixedly provided with, the left belt pulley and the right belt pulley are coaxially and fixedly connected with a left belt pulley and a right belt pulley, the left belt pulley and the right belt pulley are connected through a belt which bypasses the left belt pulley, the reciprocating driving gear 24 is connected with the lifting motor 67 through a belt transmission structure, the belt transmission structure comprises a reciprocating driving belt pulley which is coaxially and fixedly connected onto the reciprocating driving gear 24, the lifting belt pulley is coaxially and fixedly connected onto an output shaft of the lifting motor 67, the lifting belt pulley is connected with the reciprocating driving belt pulley through a belt, the lifting motor 67 is externally connected with a power supply and a control unit, when the lifting motor 67 is started, the lifting motor 67 can drive the fourth reciprocating transmission gear 31 to rotate in a reciprocating manner, and when the fourth reciprocating transmission gear 31 rotates in a reciprocating manner, the lifting half gear 11 and the left pressing driving gear can be, thereby realize the line drawing to server 3, descend, the flow of protection, through adjusting elevator motor 67 number of turns of rotation at every turn, when the motor rotates a cycle, can drive fourth reciprocating gear corotation certain angle, when the motor continues to rotate a cycle, can drive fourth reciprocating gear reversal certain angle to this realizes control server 3's lift.

When the server 3 is required to be lifted, the lifting motor 67 is started, the lifting motor 67 drives the reciprocating driving gear 24 to rotate, the reciprocating driving gear 24 drives the fourth reciprocating transmission gear 31 to rotate through other gear transmission, the opening and closing half gear 32 on the fourth reciprocating transmission gear 31 firstly drives the lifting half gear 11 to rotate, the lifting half gear 11 drives the server 3 to be lifted, meanwhile, the head protective shell 6 and the tail protective shell 7 are opened and closed once, when the server 3 reaches a specified height, the opening and closing half gear 32 on the fourth reciprocating transmission gear 31 is separated from the lifting half gear 11, then the pressing half gear 33 drives the left pressing driving gear and the right pressing driving gear to rotate, buckles of the network interface and the power interface are pressed and inserted into the server 3, and then the plug pressing plate 9 loosens the buckles under the combined action of the elasticity of the buckles and the U-shaped sliding groove 17, at this time, the lifting motor 67 stops rotating;

when the server 3 is required to descend and protect, the lifting motor 67 is started at first to drive the fourth reciprocating transmission gear 31 to rotate reversely, the pressing half gear 33 on the fourth reciprocating gear drives the plug pressing plate 9 to press downwards, then the plug pressing plate 9 is driven to move leftwards, the plug is pulled out, the pressing half gear 33 is separated from the left pressing driving gear, the opening and closing half gear 32 is connected with the lifting half gear 11 to drive the server 3 to move downwards, meanwhile, the head protection shell 6 and the tail protection shell 7 are opened, when the server 3 descends to a specified position, the head protection shell 6 and the tail protection shell 7 are closed under the action of the lifting half gear 11, and the lifting motor 67 stops rotating at the moment.

Embodiment two, on the basis of embodiment one, lift semi-gear 11 top be provided with rotate connect the trigger ring 36 on the cabinet body 1, trigger ring 36 in coaxial cover be equipped with fixed connection the three hornblocks 37 of the spacing on the cabinet body 1, three hornblocks 37 closed angle down, the both sides of the closed angle of the lower extreme of three hornblocks 37 set up the dog, the dog top sets up to the arc, can make trigger ring 36 reciprocating stroke reduce, make trigger bar 35 can better contact trigger sleeve 38, the coaxial fixedly connected with trigger sleeve 38 of 36 lower extreme of trigger ring, lift semi-gear 11 one side coaxial fixed with trigger bar 35, trigger bar 35 and trigger sleeve 38 contact, when lift semi-gear 11 rotates, the trigger bar 35 of going up and down on the half-gear 11 can make a round trip to stir trigger sleeve 38, trigger sleeve 38 sliding connection have trigger block 39, the trigger block 39 and the trigger sleeve 38 are connected through a spring, due to the action of the spring, the trigger block 39 can be always in contact connection with the limit triangular block 37, when the trigger ring 36 is toggled back and forth by the trigger rod 35, the trigger block 39 can move back and forth on two sides of the pointed end of the limit triangular block 37, the trigger block 39 is in contact connection with the limit triangular block 37, the upper end of the trigger ring 36 is hinged with a bolt 40 which is in sliding connection with the cabinet body 1, the lifting rod 10 is provided with a pin hole 41, the bolt 40 is in sliding connection with the pin hole 41, and when the trigger ring 36 is toggled back and forth, the bolt 40 which is meshed with the trigger ring 36 can be intermittently inserted into the bolt 40.

When the server 3 is lifted, the server 3 is lifted to a designated height, at this time, the trigger rod 35 on the lifting half-gear 11 toggles the trigger sleeve 38, so that the trigger ring 36 rotates, so that the trigger block 39 in the trigger ring 36 moves to the other side of the tip of the limit triangular block 37, so that the latch 40 is inserted into the pin hole 41, and the limit on the server 3 is realized.

The third embodiment is characterized in that an air ventilation bin 42 is arranged below the base 2, a ventilation opening 43 is arranged on the base 2, the ventilation opening 43 is connected with the ventilation bin 42, the ventilation opening 43 is obliquely arranged, an air outlet of the ventilation opening 43 is deviated to the tail end of the server 3, air passing through the ventilation opening 43 can be blown out from the rear side of the cabinet body 1, an air cooling bin 44 is arranged above the cabinet body 1, a fan 45 rotatably connected to the cabinet body 1 is arranged in the air cooling bin 44, the fan 45 rotates to blow outside air into the cabinet body 1, the air cooling bin 44 is connected with the ventilation bin 42 through an air guide pipe 46, the air guide pipe 46 can send the air blown out from the air cooling bin 44 into each ventilation bin 42, and the fan 45 is connected with a power supply and a control unit.

When the embodiment is used specifically, when the server 3 runs at low power, the server 3 radiates less heat, at this time, the fan 45 is turned on, the fan 45 blows external air into the ventilation bin 42, and blows the external air into the bottom of the server 3 through the ventilation opening 43 on the ventilation bin 42, so that air cooling and heat dissipation are performed on the server 3.

In the fourth embodiment, on the basis of the third embodiment, a water cooling plate 47 slidably connected to the base 2 is disposed below the server 3, a water cooling pipe 65 is laid below the water cooling plate 47, the water cooling plate 47 is thin, so that heat on the server 3 can be conducted into the water cooling pipe 65 through the water cooling plate 47 and taken away by the water cooling pipe 65, two first lifting rods 48 are hinged below the water cooling plate 47, a second lifting rod 49 is hinged at the other end of each of the two first lifting rods 48, lifting turbines 50 are fixedly connected at the other ends of the two second lifting rods 49, the two lifting turbines 50 are rotatably connected in the ventilating bin 42, a lifting worm 51 rotatably connected in the ventilating bin 42 is disposed between the two lifting turbines 50, the lifting worm 51 is engaged with the two lifting turbines 50, and the two lifting turbines 50 can be driven to rotate in opposite directions by rotating the lifting worm 51, the first lifting rod 48 and the second lifting rod 49 are driven to ascend synchronously, in order to enable the water cooling plate 47 to ascend more stably, two groups of first lifting rods 48 and two groups of second lifting rods 49 can be arranged, so that the water cooling plate 47 can ascend more stably, the lifting worm 51 is connected with a water cooling driving gear 69 which is rotatably connected in the ventilating bin 42 through a belt transmission structure, the belt transmission structure comprises a lifting worm 51 belt pulley which is coaxially and fixedly connected to the lifting worm 51 and a water cooling driving belt pulley which is coaxially and fixedly connected to the water cooling driving gear 69, and the water cooling driving belt pulley is connected with the lifting worm 51 belt pulley through a belt;

the two sides below the water cooling plate 47 are provided with ventilation and cooling plates 52 which are slidably connected in the ventilation bin 42, the ventilation and cooling plates 52 can be inserted into a gap below the base 2, the air cooling and cooling plate is paved with a water cooling pipe 65, and the air cooling and cooling plate is opened and closed with a gap to circulate air, a screw 53 which is rotatably connected in the ventilation bin 42 is arranged between the two ventilation and cooling plates 52, the two ends of the screw 53 are coaxially sleeved with screw nuts 54, the screw 53 is in threaded fit with the screw nuts 54, the thread turning directions of the two ends of the screw 53 are the same, the two screw nuts 54 are fixedly connected on the lower end surface of the ventilation and cooling plate 52, the two screw nuts 54 can be far away from or close to each other by rotating the screw 53, thereby realizing the mutual far away or close to each other of the two ventilation and cooling plates 52, the screw 53 is coaxially and fixedly connected with a screw gear 55, one side of the screw gear 55 is meshed with a screw transmission gear 56 which is rotatably connected in the ventilation bin 42, the screw transmission gear 56 is connected with a ventilation cooling gear 68 which is rotatably connected in the ventilation bin 42 through a belt transmission structure, the belt transmission structure comprises a screw 53 transmission belt pulley which is coaxially and fixedly connected on the screw transmission gear 56 and a ventilation cooling belt pulley which is coaxially and fixedly connected on the ventilation cooling gear 68, and the ventilation cooling belt pulley is connected with the screw 53 transmission belt pulley through a belt;

a reversing gear 57 rotatably connected in the ventilation bin 42 is arranged between the ventilation cooling gear 68 and the water-cooling driving gear 69, the reversing gear 57 is only meshed with any one of the water-cooling driving gear 69 and the ventilation cooling gear 68 at the same time, when the reversing gear 57 is pushed, the reversing gear 57 is firstly meshed with the ventilation cooling gear 68 and then continuously pushed, the reversing gear 57 is separated from the ventilation cooling gear 68 and meshed with the water-cooling driving gear 69, one side of the reversing gear 57 is in contact connection with a coaxially rotating reset one-way wheel 58, the reset one-way wheel 58 cannot rotate when the reversing gear 57 rotates forwards, at the moment, the reversing gear 57 drives the water-cooling plate 47 to rise, when the reversing gear 57 rotates backwards, the reversing gear 57 drives the water-cooling plate 47 to fall and drives the reset one-way wheel 58 to rotate, when the reversing gear 57 is meshed with the water-cooling driving gear 69, the device is explained to adjust the ventilation and cooling plate 52, at this time, the reset one-way wheel 58 is meshed with the ventilation and cooling gear 68, when the device is reset, the reset one-way wheel 58 can drive the ventilation and cooling gear 68 to reset together, when the device is used for water-cooling adjustment, the adjustment of the ventilation and cooling plate 52 is not influenced, one side of the reset one-way wheel 58 is coaxially and rotatably connected with a reset driving wheel 59, the reset driving wheel 59 is positioned on one side of the opening and closing transmission gear 13, the reversing driving wheel 60 which is rotatably connected in the ventilation bin 42 is coaxially and fixedly connected between the reset driving wheel 59 and the reset one-way wheel 58, one side of the reversing driving wheel 60 is provided with a reversing motor 61 which is fixedly connected in the ventilation bin 42, and the output shaft of the reversing motor 61 is fixedly connected with a reversing motor gear 62, the reversing motor gear 62 is engaged with the reversing driving wheel 60, a reversing electric push rod 63 which is rotatably connected to the reversing driving wheel 60 is arranged on one side of the reversing driving wheel 60, and the reversing motor 61 and the reversing electric push rod 63 are connected with a power supply and a control unit.

When the embodiment is used specifically, when the server 3 is lifted, and the server 3 runs at low power, the fan 45 above the cabinet 1 is turned on, the system enters an air cooling mode, and the server 3 is subjected to a heat dissipation effect by the fan 45; when the server 3 is in medium-power operation and the air cooling is difficult to meet the heat dissipation effect of the server 3 at the moment, the reversing electric push rod 63 is adjusted, the reversing electric push rod 63 pushes the reversing gear 57 to be meshed with the ventilation and cooling gear 68, the reversing motor 61 is started at the moment, the reversing motor 61 drives the ventilation and cooling gear 68 to rotate, the ventilation and cooling gear 68 drives the screw rod 53 to rotate, the screw rod 53 rotates to drive the two ventilation and cooling plates 52 to move to the lower part of the base 2, and the air blown in by the air cooling is changed into cold air through the cooling effect of the ventilation and cooling plates 52 to cool the server 3 by cold air;

when the server 3 is in high-power operation, the cooling requirement of the server 3 cannot be met by cold air at the moment, the reversing electric push rod 63 can be controlled to mesh the reversing gear 57 with the water-cooling driving gear 69, the reversing motor 61 is started at the moment, the reversing motor 61 drives the water-cooling driving gear 69 to rotate, the water-cooling driving gear 69 drives the lifting turbine 50 to rotate, so that the water-cooling plate 47 is lifted to be in contact with the bottom of the server 3, and the server 3 is cooled through the water-cooling pipe 65 below the water-cooling plate 47;

when the server 3 is used and needs to be lowered for protection, the reversing electric push rod 63 pushes the reversing gear 57 to move, the reset driving wheel 59 is pushed to be meshed with the opening and closing transmission gear 13, when the server 3 is lowered, the opening and closing transmission gear 13 is driven to rotate, the opening and closing transmission gear 13 drives the reset driving wheel 59 to rotate, and therefore the water cooling plate 47 and the ventilation and temperature reduction plate 52 are reset, and then the reversing electric push rod 63 is reset for next use.

Fifth embodiment, on the basis of fourth embodiment, cabinet body 1 below be equipped with water-cooling radiator 64, water-cooling radiator 64 inside include water-cooling piece, circulation liquid, water pump, pipeline and water tank or heat exchanger, can carry out cooling treatment with the hot water of carrying in, water-cooling radiator 64 pass through water-cooling pipe 65 and water-cooling board 47 and ventilation cooling board 52 link to each other, water-cooling radiator 64 connects the both ends of water-cooling pipe 65 to give off the heat that water-cooling pipe 65 brought, water-cooling radiator 64 external power supply and the control unit.

Sixth embodiment, on the basis of the first embodiment, a switch electric push rod 66 fixedly connected to the cabinet 1 is arranged on one side of the switch gear 25, the switch gear 25 is rotatably connected to the switch electric push rod 66, the switch electric push rod 66 is connected to a power supply and a control unit, and the switch gear 25 and the reciprocating driving gear 24 can be controlled to be engaged and disengaged by adjusting the switch electric push rod 66, so that each server 3 can be controlled individually.

When the invention is used in concrete, when the server 3 needs to carry out data protection, the lifting motor 67 is started at the moment, the lifting motor 67 drives the reciprocating driving gear 24 to rotate, the reciprocating driving gear 24 drives the fourth reciprocating transmission gear 31 to rotate in a reciprocating manner through the first reciprocating transmission gear 26, the second reciprocating transmission gear 27 and the third reciprocating transmission gear 28, the opening and closing half gear 32 on the fourth reciprocating transmission gear 31 is connected with the lifting half gear 11 to drive the lifting half gear 11 to rotate forwards, the lifting half gear 11 drives the first opening and closing driving wheel 12 to rotate, so that the head protective shell 6 and the tail protective shell 7 are far away from each other, at the moment, the lifting half gear 11 is meshed with the lifting rod 10 to drive the server 3 to rise, the lifting rod 10 drives the second opening and closing driving wheel 14 to rotate, the second opening and closing driving wheel 14 controls the head protective shell 6 and the tail protective, simultaneously, the trigger rod 35 shifts the trigger ring 36, a bolt 40 on the trigger ring 36 is inserted into a pin hole 41 on the lifting rod 10 to limit the server 3, when the server 3 is lifted to a specified height, the opening and closing half gear 32 is separated from the lifting half gear 11, meanwhile, the pressing half gear 33 is connected with the left driving gear 21 and the right driving gear 23, at the moment, the left driving gear 21 rotates to drive the left pressing rod 18 to move downwards, so that a rack under the plug pressing plate 9 is meshed with the left driving gear 21, the plug pressing plate 9 is driven to move rightwards, a network socket and a power socket are inserted into the server 3, then the plug pressing plate 9 is released, and the lifting is finished;

when the server 3 needs to be lowered to protect the server 3, the lifting motor 67 is started at this time, the lifting motor 67 drives the fourth reciprocating transmission gear 31 to rotate, the pressing half gear 33 on the fourth reciprocating transmission gear 31 is meshed with the left half gear and the right half gear to drive the plug pressing plate 9 to press downwards, and simultaneously the plug pressing plate moves leftwards under the action of the right pressing driving gear, so that the plug is pulled out of the server 3, the pressing half gear 33 is separated from the left half gear, the opening and closing half gear 32 is connected with the lifting half gear 11, the lifting half gear 11 turns over, firstly the trigger rod 35 on the lifting half gear 11 stirs the trigger ring 36 to pull the plug pin 40 out of the jack, then the lifting half gear 11 drives the lifting rod 10 to move downwards, and simultaneously the lifting rod 10 drives the second opening and closing driving wheel 14 to rotate to open the head protective shell 6 and the tail protective shell 7, then when the server 3 continuously descends to the designated height, the lifting half gear 11 is separated from the lifting rod 10 and is meshed with the first opening and closing driving wheel 12, the first lifting driving wheel drives the head protective shell 6 and the tail protective shell 7 to be closed, head and tail protection of the server 3 is achieved, and the data protection effect is achieved;

when the server 3 works and the server 3 is in low power, the fan 45 is started at the moment, the fan 45 blows in external air, and air cooling and heat dissipation are carried out on the server 3;

when the server 3 is in a medium state and the air cooling is difficult to meet the heat dissipation effect of the server 3 at the moment, the reversing electric push rod 63 is adjusted, the reversing electric push rod 63 pushes the reversing gear 57 to be meshed with the ventilation and cooling gear 68, the reversing motor 61 is started at the moment, the reversing motor 61 drives the ventilation and cooling gear 68 to rotate, the ventilation and cooling gear 68 drives the screw rod 53 to rotate, the screw rod 53 rotates to drive the two ventilation and cooling plates 52 to move to the lower part of the base 2, and the air blown in by the air cooling is changed into cold air through the cooling effect of the ventilation and cooling plates 52 to cool the server 3;

when the server 3 is in high-power operation, the cooling requirement of the server 3 cannot be met by cold air at the moment, the reversing electric push rod 63 can be controlled to mesh the reversing gear 57 with the water-cooling driving gear 69, the reversing motor 61 is started at the moment, the reversing motor 61 drives the water-cooling driving gear 69 to rotate, the water-cooling driving gear 69 drives the lifting turbine 50 to rotate, so that the water-cooling plate 47 is lifted to be in contact with the bottom of the server 3, and the server 3 is cooled through the water-cooling pipe 65 below the water-cooling plate 47;

when the server 3 is used and needs to be lowered for protection, the reversing electric push rod 63 pushes the reversing gear 57 to move, the reset driving wheel 59 is pushed to be meshed with the opening-closing transmission gear 13 at the moment, when the server 3 is lowered, the opening-closing transmission gear 13 is driven to rotate, the opening-closing transmission gear 13 drives the reset driving wheel 59 to rotate, so that the water cooling plate 47 and the ventilation and temperature reduction plate 52 are reset, and then the reversing electric push rod 63 is reset for the next use;

each server 3 can be controlled by adjusting the switch electric push rod 66, when a certain server 3 needs to work continuously, only the switch electric push rod 66 of the corresponding server 3 needs to be adjusted, and at the moment, the server 3 cannot run together with other servers 3, so that the server 3 works continuously, and other servers 3 are lowered to perform data protection.

The invention improves the defects of the existing big data computer platform that the computer has overlarge heat productivity and lacks effective heat dissipation measures, the protection of the computer data is weak and the protection measures under the line are less

The lifting device comprises a cabinet body, a head protection shell, a tail protection shell, a lifting half gear, a head fixing plate, a plug pressing plate, a transmission structure, a lifting half gear, a head protection shell, a tail protection shell, a head fixing plate, a plug pressing plate, a lifting half gear, a transmission structure and a lifting half gear, wherein the cabinet body is arranged on the two sides of the cabinet body; through setting up air-cooled storehouse and water-cooling board to through setting up sliding connection's ventilation cooling board, make the radiating effect of switching that the device can be free, make the server when being in different operating condition, can switch different heat radiation module, reach better radiating effect with this, dispel the heat to the server effectively, prevent that the server from overheated leading to damaging.

The invention lifts the server through the lifting rod, comprehensively protects the plug wire end and the switch end of the server through the head protective shell and the tail protective shell, realizes the coordinated plugging and unplugging of the plug through the plug fixing plate and the plug pressing plate, and coordinates the plug and the switch end through the transmission structure, thereby achieving the intelligent protection effect of the server, and realizes the intelligent heat radiation of the server by arranging the air cooling bin above the cabinet body, arranging the water cooling bin below the cabinet body, and arranging the water cooling plate and the ventilation cooling plate below the server, thereby realizing the regulation and control of the temperature of the server, and when the server is in different heating states, intelligently using heat radiation modules with different effects to radiate the server, the invention can effectively radiate the server, can carry out data protection on the server, and realize the hardware protection of the server, the data protection effect is good.

Claims (7)

1. The big data computer platform is characterized by comprising a cabinet body (1), wherein a plurality of groups of machine bases (2) are fixedly connected with the inner walls of the two sides of the cabinet body (1), a server (3) is placed on each group of machine bases (2), a plurality of server sliding grooves (4) are formed in the plurality of machine bases (2), organic supports (5) are vertically and slidably connected in the plurality of server sliding grooves (4), the machine support (5) is in contact connection with the lower end face of the server (3), a head protective shell (6) and a tail protective shell (7) which are connected with the cabinet body (1) in a sliding way are arranged at the two ends of the machine base (2), a plug fixing plate (8) which is connected with the cabinet body (1) in a front-back sliding way is arranged above the tail protective shell (7), one side of the plug fixing plate (8) close to the server (3) is vertically connected with a plug pressing plate (9) in a sliding manner;

cabinet body (1) both sides outer wall equidistance sliding connection a plurality of lifter (10), it is a plurality of lifter (10) one end respectively with a plurality of corresponding machine hold in the palm (5) link to each other, the both sides of lifter (10) other end be provided with the tooth, lifter (10) one side meshing have the lift half gear (11) of rotation connection on the cabinet body (1), lift half gear (11) opposite side meshing have the first action wheel (12) that opens and shuts of rotation connection on the cabinet body (1), lifter (10) opposite side meshing have the drive gear (13) that opens and shuts of rotation connection on the cabinet body (1), drive gear (13) opposite side meshing that opens and shuts have the second of rotation connection on the cabinet body (1) open and shut action wheel (14), first opening and shutting action wheel (12) and second open and shut and on action wheel (14) coaxial fixedly connected with respectively rotate the first opening and shutting of connection on the cabinet body (1) from driving wheel (15) ) The first opening-closing driven wheel (15) and the second opening-closing driven wheel (16) are meshed with the head protective shell (6) and the tail protective shell (7);

the novel multifunctional intelligent cabinet is characterized in that U-shaped sliding grooves (17) are formed in two sides of the cabinet body (1), the plug pressing plate (9) is connected in the U-shaped sliding grooves (17) in a sliding mode, a left pressing rod (18) and a right pressing rod (19) which are connected to the cabinet body (1) in a sliding mode are arranged on two sides of the U-shaped sliding grooves (17) respectively, teeth are arranged at the lower end of the left pressing rod (18), a left transmission gear (20) which is connected to the cabinet body (1) in a rotating mode is meshed with one side of the left pressing rod (18), a left driving gear (21) which is connected to the cabinet body (1) in a rotating mode is meshed with one side of the left transmission gear (20), teeth are arranged at the lower end of the right pressing rod (19), a right transmission gear (22) which is connected to the cabinet body (1) in a rotating mode is meshed with one side of the right pressing rod (19), a, the left transmission gear (21), the right transmission gear (22) and the lifting half gear (11) are connected with a motor through a transmission structure, and the motor is externally connected with a power supply and a control unit.

2. The big data computer platform according to claim 1, wherein the transmission structure is that two sides of the cabinet body (1) are rotatably connected with a reciprocating driving gear (24), one side of the reciprocating driving gear (24) is engaged with a switch gear (25) rotatably connected to the cabinet body (1), one side of the switch gear (25) is engaged with a first reciprocating transmission gear (26) rotatably connected to the cabinet body (1), one side of the first reciprocating transmission gear (26) is coaxially and fixedly connected with a second reciprocating transmission gear (27), one side of the second reciprocating transmission gear (27) is engaged with a third reciprocating transmission gear (28) rotatably connected to the cabinet body (1), one sides of the second reciprocating transmission gear (27) and the third reciprocating transmission gear (28) are respectively coaxially and fixedly connected with a second reciprocating transmission half gear (29) and a third reciprocating transmission half gear (30), one side of the second reciprocating transmission half gear (29) and one side of the third reciprocating transmission half gear (30) are both engaged with a fourth reciprocating transmission gear (31) which is rotationally connected with the cabinet body (1), both sides of the fourth reciprocating transmission gear (31) are respectively and fixedly connected with an opening and closing half gear (32) and a pressing half gear (33) in a coaxial way, an opening and closing reversing gear (34) is meshed with one side of the opening and closing half gear (32), the opening and closing reversing gear (34) is connected with the lifting half gear (11) through a belt transmission structure, the pressing half gear (33) is connected with the left driving gear (21) and the right driving gear (23) through a belt transmission structure, the reciprocating driving gear (24) is connected with a lifting motor (67) through a belt transmission structure, and the lifting motor (67) is externally connected with a power supply and a control unit.

3. A big data computer platform according to claim 2, the top of the lifting half gear (11) is provided with a trigger ring (36) which is rotatably connected with the cabinet body (1), the inside of the trigger ring (36) is coaxially sleeved with a limit triangle block (37) which is fixedly connected with the cabinet body (1), the sharp corner of the limit triangle block (37) faces downwards, the lower end of the trigger ring (36) is fixedly connected with a trigger sleeve (38), one side of the lifting half gear (11) is fixedly provided with a trigger rod (35), the trigger rod (35) is in contact with the trigger sleeve (38), the trigger sleeve (38) is internally provided with a trigger block (39) in a sliding connection way, the trigger block (39) is connected with the trigger sleeve (38) through a spring, the trigger block (39) is in contact connection with the limit triangle block (37), the upper end of the trigger ring (36) is hinged with a bolt (40) which is in sliding connection with the cabinet body (1), the lifting rod (10) is provided with a pin hole (41), and the bolt (40) is connected in the pin hole (41) in a sliding manner.

4. The big data computer platform according to claim 2, wherein an air ventilation bin (42) is arranged below the base (2), an air ventilation opening (43) is arranged on the base (2), an air cooling bin (44) is arranged above the cabinet body (1), a fan (45) rotatably connected to the cabinet body (1) is arranged in the air cooling bin (44), the air cooling bin (44) and the air ventilation bin (42) are connected through an air guide pipe (46), and the fan (45) is connected with a power supply and a control unit.

5. A big data computer platform according to claim 4, wherein a water cooling plate (47) slidably connected to the base (2) is provided under the server (3), two first lifting rods (48) are hinged below the water cooling plate (47), the other ends of the two first lifting rods (48) are hinged with second lifting rods (49), the other ends of the two second lifting rods (49) are fixedly connected with lifting turbines (50), the two lifting turbines (50) are rotatably connected in the ventilation bin (42), a lifting worm (51) rotatably connected in the ventilation bin (42) is arranged between the two lifting turbines (50), the lifting worm (51) is meshed with the two lifting turbines (50), the lifting worm (51) is connected with a water-cooling driving gear (69) which is rotatably connected in the ventilation bin (42) through a belt transmission structure;

both sides of water-cooling board (47) below all be provided with ventilation cooling plate (52) of sliding connection in ventilation storehouse (42), two ventilation cooling plate (52) between be provided with lead screw (53) of rotating connection in ventilation storehouse (42), lead screw (53) both ends all coaxial cover be equipped with screw-nut (54), lead screw (53) with screw-nut (54) between screw-thread fit and screw-nut (53) both ends screw-thread to opposite, make two screw-nut (54) keep away from each other, two screw-nut (54) fixed connection be in ventilation cooling plate (52) the lower terminal surface, lead screw (53) go up coaxial fixedly connected with lead screw gear (55), lead screw gear (55) one side meshing has lead screw drive gear (56) of rotating connection in ventilation storehouse (42), lead screw drive gear (56) connect ventilation storehouse (42) in ventilation storehouse (42) through belt transmission structure and rotation The cooling gear (68) is connected;

ventilating and cooling gear (68) with water-cooling driving gear (69) between be provided with reversing gear (57) of rotation connection in ventilating storehouse (42), reversing gear (57) only mesh with arbitrary one in water-cooling driving gear (69) and ventilating and cooling gear (68) with the same moment, reversing gear (57) one side coaxial rotation have reset one-way wheel (58), reset one-way wheel (58) one side coaxial rotation be connected with reset action wheel (59), reset action wheel (59) be located opening and shutting drive gear (13) one side, reset action wheel (59) with reset one-way wheel (58) between coaxial fixedly connected with rotate connect in ventilating storehouse (42) switching action wheel (60), switching action wheel (60) one side be provided with reversing motor (61) of fixed connection in ventilating storehouse (42), the reversing motor is characterized in that a reversing motor gear (62) is fixedly connected to an output shaft of the reversing motor (61), the reversing motor gear (62) is meshed with the reversing driving wheel (60), a reversing electric push rod (63) rotatably connected to the reversing driving wheel (60) is arranged on one side of the reversing driving wheel (60), and the reversing motor (61) and the reversing electric push rod (63) are connected with a power supply and a control unit.

6. The big data computer platform according to claim 5, wherein a water-cooled radiator (64) is arranged below the cabinet body (1), the water-cooled radiator (64) is connected with the water-cooled plate (47) and the ventilation cooling plate (52) through a water-cooled tube (65), and the water-cooled radiator (64) is externally connected with a power supply and a control unit.

7. The computer platform for middle and large data according to claim 2, wherein a switch electric push rod (66) fixedly connected to the cabinet body (1) is arranged on one side of the switch gear (25), the switch gear (25) is rotatably connected to the switch electric push rod (66), and the switch electric push rod (66) is connected to a power supply and a control unit.

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