CN112416095A - Server buffer stop for big data based on computer - Google Patents

Abstract

The invention provides a server anti-collision device based on big data of a computer, which solves the problem that when an external force impacts a case shell, the case shell is inclined on the ground, and the case shell and parts are damaged; the anti-falling device comprises a base, wherein an anti-falling arc base is arranged in the base in a rotating manner, an anti-falling arc rack is fixed on the arc surface of the anti-falling arc base, an anti-falling driving gear is arranged in the base in a rotating manner, an anti-falling driving gear is coaxially fixed on the anti-falling driving gear, an anti-falling driving rack slides in the base from left to right, two ends of the anti-falling driving rack are connected with the anti-falling driving rack, anti-falling supporting gears are arranged on the left side and the right side of the base in a rotating manner, the anti-falling supporting gears are connected with supporting driving pulleys, supporting legs are rotatably installed on the left side and the; the invention avoids the situation that the computer case falls on the ground to damage the case shell and the components and even possibly cause the vibration and the displacement of the internal parts of the case.

Description

Server buffer stop for big data based on computer

Technical Field

The invention relates to the technical field of big data servers, in particular to a server anti-collision device for big data based on a computer.

Background

Big data (big data), which refers to a data set that cannot be captured, managed and processed by a conventional software tool within a certain time range, is a massive, high-growth-rate and diversified information asset that needs a new processing mode to have stronger decision-making power, insight discovery power and process optimization capability. The existing society is a society with high-speed development, developed science and technology and information circulation, people communicate with each other more and more closely, the life is more and more convenient, and big data is a product of the high-tech era. Somebody has compared data to coal mines where energy is stored. The coal is classified according to properties such as coking coal, anthracite, fat coal, lean coal and the like, and the excavation cost of open pit coal mines and deep mountain coal mines is different. Similarly, big data is not "big" but "useful". The value content and the excavation cost are more important than the quantity. For many industries, how to utilize these large-scale data is a key to gain competition.

Servers, also known as servers, are devices that provide computing services. Since the server needs to respond to and process the service request, the server generally has the capability of assuming and securing the service. Meanwhile, the server needs to work in a relatively stable and stable environment due to the characteristic property of the server, a computer case is a computer host and is also a server, the server is a modern electronic computer for high-speed calculation, can perform numerical calculation and logic calculation, has a memory function, and is modern intelligent electronic equipment capable of automatically and quickly processing mass data according to program operation.

However, the existing computer chassis still has the following defects:

1. the computer case in the prior art mainly adopts a shock-absorbing material to realize collision avoidance, but when the computer case is impacted by a large external force, the computer case can be inclined on the ground, so that the computer case is damaged by the impact force with the ground again;

2. when the external force impacts the chassis shell, the chassis shell and the components are damaged, and even the internal parts of the chassis are possibly vibrated and displaced;

3. the computer case is generally placed below the desk, and is easy to kick the case to be impacted when working, and in addition, the computer case is easy to collide when a chair is pushed below the desk.

Therefore, the invention provides a server anti-collision device based on computer big data to solve the problems.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the server anti-collision device based on the big data of the computer, which effectively solves the problems that when an external force impacts the case shell, the case shell and parts are inclined on the ground, the case shell and the parts are damaged, and even the internal parts of the case are vibrated and displaced in the prior art.

A server anti-collision device based on computer big data comprises a base which is hollow inside and is provided with an opening at the top, and is characterized in that a semi-cylindrical anti-falling arc base is rotatably installed between the front inner wall and the rear inner wall of the base, the cambered surface of the anti-falling arc base is fixedly provided with a host protection device, an anti-falling arc rack is coaxially and fixedly installed on the cambered surface of the anti-falling arc base, an anti-falling driving gear which is positioned below the anti-falling arc base and meshed with the anti-falling arc rack is rotatably installed between the front inner wall and the rear inner wall of the base, the front side and the rear side of the anti-falling driving gear are respectively and coaxially and fixedly connected with an anti-falling transmission gear, the front end and the rear end of the bottom surface inside the base are respectively provided with an anti-falling driving rack meshed with two anti-falling transmission gears in a left, and every equal fixedly connected with prevents down the spring between the inner wall of spring base and base, it has two rack through-holes that prevent down the drive rack left and right sides to open respectively on the lateral wall about the base, two prevent down the drive rack about both ends respectively fixedly connected with pass the rack through-hole that corresponds respectively and prevent down the transmission rack, the base about both ends rotate respectively around the side install with four prevent down the transmission rack meshing prevent down the support gear, every prevent down the equal coaxial fixedly connected with of support gear and support driving pulley, the base about both ends all rotate and install the supporting leg around the side, every the equal coaxial fixedly connected with of pivot of supporting leg supports the driven pulleys, every support driving pulley and one of them support and be connected with the support belt between the driven pulleys.

Preferably, every telescopic hole has all been opened to the bottom of supporting leg, every equal slidable mounting has the support leg that stretches out and draws back in the telescopic hole, every the bottom that supports the leg that stretches out and draws back all articulates there is the supporting legs, every it all overlaps to establish on the leg that stretches out and draws back to support and installs the supporting spring that is located between supporting leg and the supporting legs.

Preferably, coaxial fixedly connected with respectively in the pivot of falling down both sides around the circular arc base is located the base front and back both sides prevent down the pendulum rod, all open circular arc spout, two on the front and back side of base equal slidable mounting has circular arc slider in the circular arc spout, two prevent down the free end of pendulum rod all with the circular arc slider fixed connection of homonymy, two all rotate on the circular arc slider and install the balancing weight.

Preferably, host computer protector, including fixed mounting at the protection bottom plate of preventing down the circular arc base top, the top rear side fixed mounting of protection bottom plate has the protection riser, it has the protection spout of left right direction to open on the leading flank of protection riser, rotate between the inner wall about the protection spout and install the two-way lead screw of protection, sliding mounting has two about in the protection spout respectively in the both ends screw-thread fit's of protection two-way lead screw protection slider, two the equal fixedly connected with of protection slider is located the guard plate on the protection bottom plate, two buffering slide bars are installed respectively to the one side that the guard plate is relative, two of each side equal sliding mounting has the buffer board on the buffering slide bar, every all overlap on the buffering slide bar and establish the buffer spring who is located between buffer board and the guard plate.

Preferably, the opposite surfaces of the two protection plates are respectively provided with a front-back direction limiting sliding groove, the two limiting sliding grooves are respectively and rotatably provided with a limiting bidirectional screw rod, each limiting sliding groove is internally and longitudinally provided with a limiting sliding block respectively in threaded fit with the two ends of the limiting bidirectional screw rod, each buffering sliding rod is fixedly connected with one limiting sliding block, the front side surface of the protection vertical plate is fixedly provided with a left-right direction limiting driving rack which penetrates through the two limiting sliding grooves, the rear ends of the two limiting bidirectional screw rods are coaxially and fixedly connected with a limiting driving gear meshed with the limiting driving rack, the two buffer plates are respectively provided with two limiting adjusting grooves, the other end of each buffer rod penetrates through one limiting adjusting groove and is fixedly connected with a limiting plate, and the opposite surfaces of the two limiting plates on each side are respectively and slidably provided with a limiting buffer plate, and a limiting buffer spring is connected between each limiting buffer plate and each limiting plate.

Preferably, the top of protection riser is opened there is the roof spout, slidable mounting has the roof around in the roof spout, it has a plurality of louvres and every to run through on the roof all to install radiator fan in the louvre, the bottom surface fixed mounting of roof has the roof rack of fore-and-aft direction, the leading flank of protection riser is opened and is had vertical and communicate the roof driving groove between the top surface of protection spout and the bottom surface of roof spout, the top in roof driving groove is rotated and is installed the roof gear with roof rack toothing, the coaxial fixedly connected with roof driven pulleys of roof gear, the coaxial fixed mounting in middle part of protection two-way lead screw has roof driving pulley, be connected with the roof belt that is located roof driving groove between roof driving pulley and the roof driven pulleys.

Preferably, the rear end of the bottom surface of the top plate is fixedly connected with a spring plate located on the rear side of the protective vertical plate, and an auxiliary spring is fixedly mounted on the front side surface of the spring plate.

Preferably, all open the left and right sides of roof has a plurality of roof telescopic holes, every equal slidable mounting has the roof slide bar in the roof telescopic hole, every all install roof slide bar spring in the roof telescopic hole, lie in the other end fixedly connected with roof buffer board with a plurality of roof slide bars of one side, be connected with the ripple cover between the roof buffer board of roof and the left and right sides.

Preferably, every the front end of guard plate has all opened door plant corner groove, every all opened the door plant spout on the trailing flank in door plant corner groove, every the door plant drive groove has been run through at the top of door plant spout, every equal slidable mounting has the door plant in the door plant spout, every the equal fixedly connected with in top rear end of door plant passes door plant drive groove and is located the drive round pin and every of guard plate top equal coaxial rotation installs the spring ring on the drive round pin, every all be connected with the door plant extension spring between spring ring and the guard plate that corresponds.

Preferably, two equal fixedly connected with door plant spool in top of driving round pin, two the front end of guard plate top surface all rotates to install the fixed pulley that is located door plant drive groove front end one side, two the equal fixed mounting in top of guard plate has the door plant motor, two equal fixed mounting has in the axis of rotation of door plant motor receives the line spool, two all twines on the door plant spool and has the stay cord, and every the fixed pulley of homonymy is all walked around to the other end of stay cord is fixed on the line spool of receiving of homonymy.

According to the invention, the case is placed on the protection device for protection, so that direct impact on the case caused by external force can be prevented; when the protection device is impacted by external force and topples over, the anti-toppling circular arc base can be driven to swing for a certain angle on the base, and the two anti-toppling driving racks are driven to extend towards the toppling direction of the case and drive the two supporting legs at the same side to be opened outwards to support the bottom surface, so that the problem that the case of the computer topples over due to gravity center offset generated when the case of the computer topples over towards one side due to the external force impact can be effectively prevented, and the impact between the case of the computer and the ground is avoided; through the shell that forms between two guard plates, two door plants and the roof, can avoid the striking with computer machine case protection in the shell, can play fine guard action to the quick-witted case.

The computer case has clear design thought, simple structure, convenient operation and strong practicability, and avoids the situation that the computer case is toppled over on the ground to damage the case shell and parts and even possibly cause vibration and displacement of parts in the case.

Drawings

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

FIG. 2 is a schematic plan view of the present invention.

FIG. 3 is a schematic cross-sectional perspective view of the present invention.

FIG. 4 is a perspective view of the anti-falling arc base of the present invention.

FIG. 5 is a schematic cross-sectional view of the anti-falling arc base and the base of the present invention.

FIG. 6 is a schematic cross-sectional perspective view of the anti-falling arc base of the present invention.

FIG. 7 is a cross-sectional schematic view of a support leg of the present invention.

FIG. 8 is a perspective view of the anti-backup transmission rack and the anti-backup support gear of the present invention.

Fig. 9 is a perspective view illustrating initial positions of two shielding plates and a top plate according to the present invention.

Fig. 10 is a perspective view illustrating the protection of the protection plate and the top plate according to the present invention.

Fig. 11 is a perspective view of the engagement of the top plate gear and the top plate rack of the present invention.

Fig. 12 is a perspective view illustrating the installation of the limiting slider and the limiting bidirectional screw rod according to the present invention.

Fig. 13 is an internal perspective view of the top panel of the present invention.

Fig. 14 is a perspective view of the engagement of the limit drive gear and the limit drive rack in accordance with the present invention.

FIG. 15 is a perspective view of the door panel of the present invention in a door panel sliding groove.

FIG. 16 is a perspective view of the door panel sliding out of the door chute and protected according to the present invention.

Fig. 17 is a schematic perspective view of a door panel corner groove and a door panel sliding groove according to 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.

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

The invention relates to a server anti-collision device based on computer big data, which comprises a base 1 which is hollow inside and is provided with an opening at the top, wherein the base 1 provides a fixed foundation for a subsequent structure, and is characterized in that a semi-cylindrical anti-falling arc base 2 with an arc surface positioned inside the base 1 is rotatably arranged between the front inner wall and the rear inner wall of the base 1, the anti-falling arc base 2 can rotate at the opening at the top of the base 1, a host protection device is fixedly arranged at the top of the anti-falling arc base 2, a computer case, namely a host is placed in the host protection device and is limited and fixed through the subsequent structure, the host protection device can effectively protect the periphery of the host, when external force is received, the external force can impact on the host protection device, the host can not be directly impacted, the host protection device can drive the anti-falling arc base 2 to rotate on the base 1 when being impacted and inclined, prevent coaxial fixed mounting and have down-proof circular arc rack 3 in the cambered surface of down-proof circular arc base 2, as shown in figure 5, prevent down-proof circular arc rack 3 and rotate when down-proof circular arc base 2 rotates, rotate between the front and back internal ratio of base 1 and install and be located down-proof circular arc base 2 below and with prevent down-proof circular arc rack 3 meshing prevent down gear 4, can drive down-proof gear 4 and rotate when preventing down circular arc rack 3 and rotate, prevent down gear 4's front and back both sides coaxial fixedly connected with respectively and prevent down gear 5, as shown in figure 6, prevent down gear 4 and can drive two and prevent down gear 5 and rotate when preventing down circular arc base 2 and rotate clockwise through preventing down circular arc rack 3 and drive down-proof gear 4 and two and prevent down gear 5 anticlockwise, otherwise, can drive down-proof gear 4 and two through preventing down-proof circular arc rack 3 and prevent down gear 5 and rotate anticlockwise when preventing down circular arc base 2 and rotate anticlockwise The transmission gear 5 rotates clockwise, the front end and the rear end of the bottom surface in the base 1 are respectively provided with the anti-falling driving rack 6 meshed with the two anti-falling driving racks 5 in a left-right sliding mode, the two anti-falling driving racks 5 can be driven to move leftwards when rotating clockwise, otherwise, the two anti-falling driving racks 5 can be driven to move rightwards when rotating anticlockwise, the left end and the right end of the two anti-falling driving racks 6 are respectively connected with the spring bases 7, the anti-falling spring 8 is fixedly connected between each spring base 7 and the inner wall of the base 1, the anti-falling spring 8 on the left side can be compressed when the anti-falling driving rack 6 moves leftwards, the anti-falling spring 8 on the right side is stretched to store force, otherwise, the anti-falling spring 8 on the right side can be compressed when the anti-falling driving rack 6 moves rightwards, the anti-falling spring 8 on the left side is stretched to store force, and when the host is not subjected to external force, the upward plane of the anti-falling arc base 2 is in a horizontal state under the action of the two anti-falling springs 8;

when the host machine topples to one side, the anti-toppling circular arc base 2 is driven to rotate, the anti-toppling circular arc base 2 drives the anti-toppling driving gear 4 and the two anti-toppling transmission gears 5 to rotate through the anti-toppling circular arc rack 3, the two anti-toppling transmission gears 5 can drive the two anti-toppling driving racks 6 to slide to one side of the host machine, meanwhile, the anti-toppling spring 8 positioned on one side of the two anti-toppling driving racks 6 is compressed to store force, and the anti-toppling spring 8 on the other side is stretched to store force, therefore, the impact force borne by the host machine can overcome the elastic force of the multiple anti-toppling springs 8 to topple the host machine, otherwise, the two anti-toppling driving racks 6 can be driven to move in opposite directions under the elastic force of the multiple anti-toppling springs 8, so that the anti-toppling driving racks 5 and the anti-toppling driving, so that the main machine is in a vertical initial state,

the left side wall and the right side wall of the base 1 are respectively provided with rack through holes 9 positioned at the left side and the right side of two anti-falling driving racks 6, a plurality of rack through holes 9 penetrate through the side wall of the base 1, the left end and the right end of the two anti-falling driving racks 6 are respectively and fixedly connected with anti-falling driving racks 10 respectively penetrating through the corresponding rack through holes 9, the two anti-falling driving racks 6 can drive the four anti-falling driving racks 10 to slide left and right when sliding left and right, the front end and the rear end of the left side surface of the base 1 are respectively and rotatably provided with anti-falling supporting gears 11 meshed with the four anti-falling driving racks 10, the two anti-falling driving racks 6 can drive the four anti-falling driving racks 10 to slide left when sliding left, the two anti-falling driving racks 10 positioned at the left side surface of the two anti-falling driving racks 6 can be meshed with the two anti-falling supporting gears 11 positioned at the, on the contrary, when two of the anti-falling driving racks 6 slide rightwards, the four anti-falling driving racks 10 can be driven to slide rightwards, the two anti-falling driving racks 10 positioned on the right sides of the two anti-falling driving racks 6 can be meshed with the two anti-falling supporting gears 11 positioned on the right sides of the base 1 and drive the two anti-falling supporting gears 11 to rotate, each anti-falling supporting gear 11 is coaxially and fixedly connected with a supporting driving pulley 12, when the anti-falling supporting gear 11 rotates, the supporting driving pulley 12 can be driven to rotate, the front end and the rear end of the left side and the right side of the base 1 are respectively rotatably provided with a supporting leg 13, as shown in figure 8, the supporting legs 13 can swing outwards on the base 1, the rotating shaft of each supporting leg 13 is coaxially and fixedly connected with a supporting driven pulley 14, when the supporting driven pulley 14 rotates, the supporting legs 13 can be driven to, every support driving pulley 12 all with one of them support and be connected with support belt 15 between the driven pulleys 14, support driving pulley 12 can drive through support belt 15 and support driven pulleys 14 and rotate, thereby it outwards swings to drive supporting leg 13, when the mainframe box one side is emptyd, two brows that prevent that drive rack 6 from driving prevent down that driving rack 10 slides, make the supporting leg 13 that the host computer emptys one side can outwards swing and open, can carry out effectual support to base 1, prevent that the impact force that the host computer received from too big make the host computer top amplitude of oscillation too big and take place to empty, when the host computer gets back to initial position under two effects of preventing down spring 8, supporting leg 13 also gets back to initial position under preventing down the drive of driving rack 10.

Embodiment two, on the basis of embodiment one, every telescopic hole 16 has all been opened to the bottom of supporting leg 13, every equal slidable mounting has support telescopic leg 17 in the telescopic hole 16, supports telescopic leg 17 and can stretch out and draw back at telescopic hole 16, every the bottom that supports telescopic leg 17 all articulates there is supporting legs 18, the bottom surface and the ground contact of supporting legs 18 support base 1, every it all overlaps to establish on the telescopic leg 17 to support and installs the supporting spring 19 that is located between supporting leg 13 and supporting legs 18, and supporting spring 19 makes when supporting leg 13 outwards swings and opens, can push up support telescopic leg 17 from telescopic hole 16 for the bottom surface of supporting legs 18 contacts and supports with ground all the time.

In the third embodiment, on the basis of the second embodiment, the anti-falling swing rods 20 located on the front and rear sides of the base 1 are coaxially and fixedly connected to the rotating shafts on the front and rear sides of the anti-falling arc base 2, the two anti-falling swing rods 20 can coaxially rotate with the anti-falling arc base 2, when the anti-falling arc base 2 rotates clockwise, the two anti-falling swing rods 20 can be driven to also swing clockwise, the front and rear sides of the base 1 are respectively provided with arc chutes 21, arc sliders 22 are respectively and slidably mounted in the two arc chutes 21, the arc sliders 22 can slide in the arc chutes 21 and can only slide in the arc chutes 21, the free ends of the two anti-falling swing rods 20 are fixedly connected to the arc sliders 22 on the same side, when the two anti-falling swing rods 20 swing, the two arc sliders 22 can be driven to slide in the arc chutes 21, and the two arc sliders 22 are respectively and rotatably mounted with the, when the host is toppled and is driven to prevent down the circular arc base 2 and rotate, can drive two balancing weights 23 through two anti-falling swing rods 20 and swing along circular arc spout 21, the focus of two balancing weights 23 is downward all the time for thereby prevent down the circular arc base 2 and rotate in the opposite direction and carry out the rotation until reseing after rotating and receiving the gravity of two balancing weights 23.

Fourth embodiment, on the basis of first embodiment, host computer protector, including fixed mounting at the protection bottom plate 24 of preventing 2 tops of down-ward circular arc base, 24 accessible bolt fastening of protection bottom plate have the top of preventing down-ward circular arc base 2, the top rear side fixed mounting of protection bottom plate 24 has protection riser 25, protection riser 25 accessible bolt fastening is at the top of protection bottom plate 24, it has the protection spout 26 of left right direction to open on the leading flank of protection riser 25, rotate between the left and right sides inner wall of protection spout 26 and install protection two-way lead screw 27, protection two-way lead screw 27 can be at 26 internal rotations of protection spout, just fixed mounting has the protection lead screw motor of being connected with protection two-way lead screw 27 on the protection riser 25, and protection lead screw motor is connected with power supply to be connected with and install at the switch, in order to supply staff's operation, sliding mounting has two respectively in the protection spout 26 two-ends spiral shell of protection two-way The protection slide blocks 28 matched with the lines can drive the two protection slide blocks 28 to slide in the protection slide grooves 26 and can be close to or away from each other when the protection bidirectional screw rod 27 rotates, the two protection slide blocks 28 are fixedly connected with protection plates 29 positioned on a protection base plate 24, the two protection plates 29 can move synchronously with the two protection slide blocks 28, namely the two protection plates 29 can be close to or away from each other on the protection base plate 24, two buffer slide rods 30 are respectively installed on the opposite surfaces of the two protection plates 29, buffer plates 31 are respectively installed on the two buffer slide rods 30 on each side in a sliding mode, the two buffer slide rods 30 respectively penetrate through the buffer plates 31, namely the buffer plates 31 can slide left and right on the two buffer slide rods 30, and each buffer slide rod 30 is provided with a buffer spring 32 positioned between the buffer plates and the protection plates 29 in a sleeved mode, the buffer plates 31 can compress the buffer springs 32 when sliding on the buffer slide rods 30 to the protection plates 29, when a host is placed on the protection base plate 24, the protection bidirectional screw rods 27 are rotated to drive the two protection plates 29 to approach each other, the opposite surfaces of the two buffer plates 31 can touch the left side surface and the right side surface of the host, then the protection bidirectional screw rods 27 are rotated to drive the two protection plates 29 to approach each other for a certain distance, so that the two buffer plates 31 compress the buffer springs 32, at the moment, the left side surface and the right side surface of the host are effectively fixed by the two buffer plates 31 under the action of the buffer springs 32, so that the host cannot displace in the left and right directions on the protection base plate 24, the two buffer plates 31 and the buffer springs are matched to buffer the left and right directions of the host, the two protection plates 29 can protect the left side and the right side of the host, when an external force is impacted, external force can be offset and host computer shell is prevented to the guard plate 29 of both sides from receiving the damage, and when the guard plate 29 of both sides received the striking, the host computer can take place to rock, and two buffer boards 31 can cushion and protect the host computer this moment.

Fifth embodiment, on the basis of fourth embodiment, two spacing chutes 33, two of fore-and-aft direction are opened respectively to the relative one side of guard plate 29 spacing spout 33 in the spacing chute 33 all rotate and install spacing two-way lead screw 34, every sliding mounting has the spacing slider 35 in the both ends screw-thread fit of spacing two-way lead screw 34 respectively around in the spacing chute 33, when spacing two-way lead screw 34 rotates, two spacing sliders 35 can slide and be close to each other or keep away from each other in spacing chute 33, every buffering slide bar 30 all with one of them spacing slider 35 fixed connection can drive two buffering slide bars 30 and be close to each other or keep away from each other when being close to each other or keeping away from each other, fixed mounting has the spacing drive rack 01 that the left and right directions just runs through two spacing chutes 33 on the leading flank of guard riser 25, two equal coaxial fixedly connected with in rear end of spacing two-way lead screw 34 has and spacing drive rack 01 meshing When the two protection plates 29 are close to or far away from each other, the two limit drive gears 02 can be meshed with a limit drive rack 01 and rotate on the limit drive rack 01, so as to drive the two limit bidirectional screw rods 34 to rotate, the two buffer plates 31 are respectively provided with two limit adjusting grooves 36, the other end of each buffer rod 31 penetrates through one limit adjusting groove 36 and is fixedly connected with a limit plate 37, the two buffer slide rods 30 can be close to or far away from each other in the two limit adjusting grooves 36 and simultaneously drive the two limit plates 37 to be close to or far away from each other, when a host is placed on the protection bottom plate 24, the two protection plates 29 are simultaneously close to the middle part, simultaneously the two limit bidirectional screw rods 34 also rotate and drive the two limit slide blocks 35 which are in threaded fit with each other to be close to each other, and when the two buffer plates 31 clamp and limit the host, the two buffer plates 37 are also used for limiting the front side and the rear side of the host along with the two limiting sliding blocks 35, so that the host can realize limiting in four directions on the protective bottom plate 24, the limiting buffer plates 38 are arranged on the opposite surfaces of the two limiting plates 37 on each side in a sliding manner, a limiting buffer spring 39 is connected between each limiting buffer plate 38 and the limiting plate 37, when the two limiting plates 37 approach to the front side and the rear side of the host, the two limiting buffer plates 38 firstly touch the front side and the rear side of the host, and buffer is realized in the front-rear direction of the host through the limiting buffer springs 39, when the host receives impact force in the front-rear direction, buffer can be realized through the limiting buffer springs 39, the displacement of internal parts caused by violent shaking of the host is prevented, when the two buffer plates 31 touch the left side and the right side of the host, if the two limiting buffer plates 38, then continue to make two guard plates 29 slide a distance to the middle part, two buffer plates 31 will compress buffer spring 32 this moment, two spacing buffer plates 38 touch the front and back both sides face of host computer until, but buffer spring 32 this moment still can cushion the host computer left and right sides, otherwise, if two spacing buffer plates 38 touch the host computer front and back side face at first, then continue to make two guard plates 29 be close to the middle part, will compress spacing buffer spring 39 this moment, until two buffer plates 31 touch the left and right sides face of host computer, but spacing buffer spring 39 this moment still can cushion the front and back both sides of host computer.

Sixth embodiment, on the basis of the fourth embodiment, a top plate sliding groove 40 is formed in the top of the protection vertical plate 25, a top plate 41 is installed in the top plate sliding groove 40 in a front-back sliding manner, the top plate 41 can slide in the top plate sliding groove 40 in a front-back sliding manner, so that the top plate 41 can slide above the host to protect the top of the host, a plurality of heat dissipation holes are formed in the top plate 41, a heat dissipation fan 42 is installed in each heat dissipation hole, the heat dissipation fan 42 can be connected with the host to supply power, the heat dissipation fans 42 can cool the host and the space formed by the two protection plates 29 and the top plate 41, a top plate rack 43 in the front-back direction is fixedly installed on the bottom surface of the top plate 41, the top plate rack 43 can slide synchronously with the top plate 41, a top plate driving groove 44 which is vertical and is communicated between the top surface of the protection sliding groove 26 and the bottom surface of the, the top end of the top plate driving groove 44 is rotatably provided with a top plate gear 45 meshed with the top plate rack 43, the top plate gear 45 can rotate in the top plate driving groove 44, the top plate gear 45 can drive the top plate rack 43 and the top plate 41 to slide back and forth in the top plate sliding groove 40 when rotating, the top plate gear 45 is coaxially and fixedly connected with a top plate driven pulley 46, the top plate driven pulley 46 can rotate synchronously with the top plate gear 45, the middle part of the protection bidirectional screw rod 27 is coaxially and fixedly provided with a top plate driving pulley 47, the protection bidirectional screw rod 27 can drive the top plate driving pulley 47 to rotate when rotating, a top plate belt 48 positioned in the top plate driving groove 44 is connected between the top plate driving pulley 47 and the top plate driven pulley 46, the top plate driving pulley 47 can drive the top plate gear 45 to rotate through the top plate belt 48, when a host, the rotation protection bidirectional screw 27 drives the two protection plates 29 to approach to the middle part, and simultaneously drives the top plate gear 45 to rotate through the top plate driving belt wheel 47, so that the top plate 41 is driven to move forwards to the upper part of the host machine for protection.

Seventh embodiment, on the basis of the sixth embodiment, the rear end of the bottom surface of the top plate 41 is fixedly connected with the spring plate 49 located at the rear side of the protection vertical plate 25, the front side surface of the spring plate 49 is fixedly provided with the auxiliary spring 50, as shown in fig. 11, the rearmost end of the top plate rack 43 has no teeth, when the top plate 41 moves forward to above the host, the top plate gear 45 is disengaged from the rearmost end of the top plate rack 43, at this time, the front end of the auxiliary spring 50 will abut against the rear side surface of the protection vertical plate 25 and compress, when the top plate reaches above the host, if the two buffer plates 31 do not contact with the left and right side surfaces of the host, the protection bidirectional screw 27 will continue to rotate, the top plate gear 45 will continue to rotate, because the auxiliary spring 50 has a backward elastic force to the top plate 41, at this time, the top plate gear 45 will continuously push forward a tooth, when the two buffer plates 31 touch the left and right sides of the main body and the top plate gear 45 rotates in the opposite direction, the auxiliary spring 50 provides a backward elastic force to the top plate 41, so that the top plate gear 45 can be re-engaged with the top plate rack 43 and drive the top plate 41 to slide backward.

In the eighth embodiment, on the basis of the seventh embodiment, a plurality of top plate telescopic holes 51 are formed in the left and right sides of the top plate 41, a top plate sliding rod 52 is slidably mounted in each top plate telescopic hole 51, a top plate sliding rod spring 501 is mounted in each top plate telescopic hole 51, the top plate sliding rod 52 can slide into the top plate telescopic holes 51 and compress the top plate sliding rod spring 501, a top plate buffer plate 53 is fixedly connected to the other end of the top plate sliding rods 52 on the same side, the top plate buffer plate 53 can be pressurized to drive the top plate sliding rods 52 to slide into the top plate telescopic holes 51, a corrugated sleeve 54 is connected between the top plate 41 and the top plate buffer plates 53 on the left and right sides, the corrugated sleeve 54 can seal a gap between the two top plate buffer plates 53 and the top plate 41, and when the top plate 41 slides to the upper side of the host, the two buffer plates 31 also contact the left and right sides of the host, at this moment, the two protection plates 29 can touch the side surfaces of the two top plate buffer plates 53, so that the sealing between the top plate 41 and the two protection plates 29 is realized, if the width of the host is smaller, when the two protection plates 29 touch the two top plate buffer plates 53, the two buffer plates 31 do not touch the left side surface and the right side surface of the host, at this moment, the two protection plates 29 can be continuously moved to the middle part, and at this moment, the two protection plates 29 can simultaneously touch the left side surface and the right side surface of the host by the two buffer plates 31 through the two top plate buffer plates 53 which are compressed inside.

In the ninth embodiment, on the basis of the fourth embodiment, a door plate corner groove 55 is formed at the front end of each protection plate 29, the number of times can be shown in fig. 17, a door plate sliding groove 56 is formed on the rear side surface of each door plate corner groove 55, a door plate driving groove 57 penetrates through the top of each door plate sliding groove 56, a door plate 58 is slidably mounted in each door plate sliding groove 56, the door plate 58 can slide back and forth in the door plate sliding groove 56, a driving pin passing through the door plate driving groove 57 and located above the protection plate 29 is fixedly connected to the rear end of the top of each door plate 58, a spring ring 59 is coaxially and rotatably mounted on each driving pin, when the door plate 58 slides back and forth in the door plate sliding groove 56, the driving pin can slide back and forth in the door plate driving groove 57, and when the driving pin slides forward to the foremost end of the door plate driving groove 57, the door plate 58 also slides out of the door plate sliding groove 56, at this moment, the door plates 58 can drive the pins to rotate 90 degrees towards the door plate corner grooves 55 for rotating shafts, so that the two door plates 58 are positioned in the front of the host, the front of the host is protected, the spring rings 59 can rotate on the driving pins, each spring ring 59 and the corresponding protection plate 29 are connected with the door plate tension spring 60, when the door plates 58 slide forwards, the door plate tension spring 60 is stretched to store force, when the door plates 58 rotate, the spring rings 59 do not rotate, and the spring rings 59 are always connected with the door plate tension spring 60.

In the tenth embodiment, on the basis of the ninth embodiment, the top portions of the two driving pins are fixedly connected with door panel spools 61, the door panel spools 61 can rotate synchronously with the driving pins, the front ends of the top surfaces of the two protection plates 29 are respectively and rotatably provided with fixed pulleys 62 positioned on one side of the front ends of the door panel driving grooves 57, the fixed pulleys 62 can rotate on the top portions of the protection plates 29, the top portions of the two protection plates 29 are respectively and fixedly provided with door panel motors 63, the door panel motors 63 and the host are connected with a power supply and are connected with a switch for a worker to operate, the rotating shafts of the two door panel motors 63 are respectively and fixedly provided with take-up spools, the rotating shafts of the door panel motors 63 can drive the take-up spools to rotate when rotating, the two door panel spools 61 are respectively wound with pull ropes 64, and the pull ropes 64 can drive the door, and the other end of each pull rope 64 is fixed on the wire take-up spool on the same side by bypassing the fixed pulley 62 on the same side, as shown in fig. 15 and 16, the fixed pulley 62 changes the direction of the pull rope 64, when the door panel 58 is in the door panel chute 56, the door panel motor 63 is started to drive the wire take-up spool to rotate to start to wind the pull rope 64, the pull rope 64 can pull the door panel spool 61 and provide a rotating force for the door panel spool 61, but at this time, the door panel 58 is in the door panel chute 56 and cannot rotate, so that the door panel can only slide forwards along the door panel driving groove 57 in the door panel chute 56, when the driving pin slides to the foremost end of the door panel driving groove 57, the door panel 58 is not limited by the door panel chute 56, at this time, the door panel 58 can rotate 90 ° in the door panel rotation angle groove 55 under the pulling force of the pull rope 64, and both the door panels 58 can rotate 90 ° in the two, so that the two door panels 58 provide protection to the front side of the main unit.

According to the invention, the case is placed on the protection device for protection, so that direct impact on the case caused by external force can be prevented; when the protection device is impacted by external force and topples over, the anti-toppling circular arc base can be driven to swing for a certain angle on the base, and the two anti-toppling driving racks are driven to extend towards the toppling direction of the case and drive the two supporting legs at the same side to be opened outwards to support the bottom surface, so that the problem that the case of the computer topples over due to gravity center offset generated when the case of the computer topples over towards one side due to the external force impact can be effectively prevented, and the impact between the case of the computer and the ground is avoided; through the shell that forms between two guard plates, two door plants and the roof, can avoid the striking with computer machine case protection in the shell, can play fine guard action to the quick-witted case.

The computer case has clear design thought, simple structure, convenient operation and strong practicability, and avoids the situation that the computer case is toppled over on the ground to damage the case shell and parts and even possibly cause vibration and displacement of parts in the case.

Claims (10)

1. The utility model provides a server buffer stop for big data based on computer, includes inside cavity and open-top's base (1), a serial communication port, rotate between the front and back inner wall of base (1) and install semicircle column and cambered surface and be located base (1) inside prevent down circular arc base (2), the top fixed mounting who prevents down circular arc base (2) has host computer protector, prevent down circular arc rack (3) of coaxial fixed mounting in the cambered surface of circular arc base (2), rotate between the front and back inner wall of base (1) and install and be located down circular arc base (2) below and with prevent down the down drive gear (4) of circular arc rack (3) meshing, prevent down drive gear (5) of coaxial fixed connection respectively in both sides around of down drive gear (4), both ends are respectively the left and right slidable mounting have respectively in two prevent down drive gear (5) meshing prevent down drive rack (4) around base (1) inside bottom surface prevent down drive gear (5) and (5) meshing 6) Two spring bases (7) are respectively connected to the left end and the right end of the anti-falling driving rack (6), an anti-falling spring (8) is respectively fixedly connected between each spring base (7) and the inner wall of the base (1), rack through holes (9) positioned on the left side and the right side of the two anti-falling driving racks (6) are respectively formed in the left side wall and the right side wall of the base (1), two anti-falling driving racks (10) which respectively penetrate through the corresponding rack through holes (9) are respectively fixedly connected to the left end and the right end of the anti-falling driving racks (6), anti-falling supporting gears (11) meshed with the four anti-falling driving racks (10) are respectively rotatably installed at the front end and the rear end of the left side and the right side of the base (1), each anti-falling supporting gear (11) is coaxially and fixedly connected with a supporting driving belt pulley (12), and supporting legs (13) are respectively rotatably installed at the front end and, every the equal coaxial fixedly connected with of pivot of supporting leg (13) supports driven pulleys (14), every support driving pulley (12) all with one of them support driven pulleys (14) between be connected with support belt (15).

2. The anti-collision device for the server based on the computer big data is characterized in that a telescopic hole (16) is formed in the bottom of each supporting leg (13), a supporting telescopic leg (17) is slidably mounted in each telescopic hole (16), a supporting leg (18) is hinged to the bottom end of each supporting telescopic leg (17), and a supporting spring (19) located between each supporting leg (13) and the corresponding supporting leg (18) is sleeved on each supporting telescopic leg (17).

3. The server anti-collision device based on the big data of the computer according to claim 2, characterized in that the anti-collision swing rods (20) located at the front and rear sides of the base (1) are respectively and coaxially and fixedly connected to the rotating shafts at the front and rear sides of the anti-collision arc base (2), the front and rear sides of the base (1) are respectively provided with an arc chute (21), two arc chutes (21) are respectively and slidably provided with an arc slider (22), the free ends of the two anti-collision swing rods (20) are respectively and fixedly connected with the arc slider (22) at the same side, and two arc sliders (22) are respectively and rotatably provided with a balancing weight (23).

4. The anti-collision device for the server based on the computer big data is characterized in that the host protection device comprises a protection bottom plate (24) fixedly installed at the top of the anti-falling arc base (2), a protection vertical plate (25) is fixedly installed at the rear side of the top of the protection bottom plate (24), a protection sliding groove (26) in the left-right direction is formed in the front side surface of the protection vertical plate (25), a protection bidirectional screw rod (27) is rotatably installed between the left inner wall and the right inner wall of the protection sliding groove (26), two protection sliding blocks (28) respectively in threaded fit with the two ends of the protection bidirectional screw rod (27) are installed in the protection sliding groove (26) in a left-right sliding mode, two protection sliding blocks (28) are both fixedly connected with protection plates (29) located on the protection bottom plate (24), and two buffer sliding rods (30) are respectively installed on the opposite surfaces of the two protection plates (29), two on each side equal slidable mounting has buffer board (31) on buffering slide bar (30), every buffer spring (32) that are located between buffer board and guard plate (29) are all established to overlap on buffering slide bar (30).

5. The anti-collision device for the server based on the big data of the computer according to claim 4, characterized in that the opposite surfaces of the two protection plates (29) are respectively provided with a front-back direction limit sliding groove (33), the two limit sliding grooves (33) are respectively and rotatably provided with a limit bidirectional screw rod (34), each limit sliding groove (33) is respectively and front-back slidably provided with a limit slider (35) which is respectively in threaded fit with the two ends of the limit bidirectional screw rod (34), each buffer slide rod (30) is fixedly connected with one limit slider (35), the front side surface of the protection vertical plate (25) is fixedly provided with a left-right direction limit driving rack (01) which penetrates through the two limit sliding grooves (33), the rear ends of the two limit bidirectional screw rods (34) are respectively and coaxially and fixedly connected with a limit driving gear (02) which is meshed with the limit driving rack (01), two all open on buffer board (31) two spacing adjustment tank (36), every the other end of buffer pole (31) all passes one of them spacing adjustment tank (36) and fixedly connected with limiting plate (37), two of each side the equal slidable mounting in one side that limiting plate (37) is relative has spacing buffer board (38), every all be connected with between spacing buffer board (38) and limiting plate (37) spacing buffer spring (39).

6. The anti-collision device for the server based on the big data of the computer according to claim 4, wherein a top plate sliding groove (40) is formed at the top of the protection vertical plate (25), a top plate (41) is installed in the top plate sliding groove (40) in a sliding manner, a plurality of heat dissipation holes penetrate through the top plate (41), a heat dissipation fan (42) is installed in each heat dissipation hole, a top plate rack (43) in the front-back direction is fixedly installed on the bottom surface of the top plate (41), a top plate driving groove (44) which is vertical and is communicated between the top surface of the protection sliding groove (26) and the bottom surface of the top plate sliding groove (40) is formed in the front side surface of the protection vertical plate (25), a top plate gear (45) meshed with the top plate rack (43) is rotatably installed at the top end of the top plate driving groove (44), and a top plate driven pulley (46) is coaxially and fixedly, the middle part of the protection bidirectional screw rod (27) is coaxially and fixedly provided with a top plate driving belt wheel (47), and a top plate belt (48) positioned in a top plate driving groove (44) is connected between the top plate driving belt wheel (47) and a top plate driven belt wheel (46).

7. The anti-collision device for the server based on the computer big data is characterized in that a spring plate (49) located behind the protective vertical plate (25) is fixedly connected to the rear end of the bottom surface of the top plate (41), and an auxiliary spring (50) is fixedly mounted on the front side surface of the spring plate (49).

8. The anti-collision device for the server based on the computer big data is characterized in that a plurality of top plate telescopic holes (51) are formed in the left side and the right side of the top plate (41), a top plate sliding rod (52) is installed in each top plate telescopic hole (51) in a sliding mode, a top plate sliding rod spring (501) is installed in each top plate telescopic hole (51), a top plate buffer plate (53) is fixedly connected to the other ends of the top plate sliding rods (52) located on the same side, and a corrugated sleeve (54) is connected between the top plate (41) and the top plate buffer plates (53) on the left side and the right side.

9. The anti-collision device for the server based on the computer big data is characterized in that a door plate corner groove (55) is formed in the front end of each protection plate (29), a door plate sliding groove (56) is formed in the rear side face of each door plate corner groove (55), a door plate driving groove (57) penetrates through the top of each door plate sliding groove (56), a door plate (58) is slidably mounted in each door plate sliding groove (56), the rear end of the top of each door plate (58) is fixedly connected with a driving pin which penetrates through the door plate driving groove (57) and is located above the protection plate (29), a spring ring (59) is mounted on each driving pin in a coaxial rotating mode, and a door plate tension spring (60) is connected between each spring ring (59) and the corresponding protection plate (29).

10. The anti-collision device for the server based on the computer big data is characterized in that door plate spools (61) are fixedly connected to the tops of the two driving pins, a fixed pulley (62) located on one side of the front end of a door plate driving groove (57) is rotatably mounted at the front ends of the top surfaces of the two protection plates (29), door plate motors (63) are fixedly mounted at the tops of the two protection plates (29), wire take-up spools are fixedly mounted on the rotating shafts of the door plate motors (63), pull ropes (64) are wound on the door plate spools (61), and the other ends of the pull ropes (64) are fixed on the wire take-up spools on the same side by bypassing the fixed pulley (62) on the same side.

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