CN114546058A - Large computer equipment for big data - Google Patents

Abstract

The invention discloses large-scale computer equipment for big data, which comprises an equipment case, wherein the equipment case is fixed on a base, a storage unit is fixedly arranged in the equipment case, a support rod is fixedly arranged in the equipment case, a slide rod is fixedly connected onto the support rod, a movable seat is slidably arranged on the slide rod and is connected with the slide rod through a slide hole, a wire clamping structure with an elastic adaptation function is arranged on the movable seat, a power connection plate is fixedly arranged on the base, a conductive wire is fixedly connected onto a ground plate, the conductive wire is fixedly connected with an electrostatic brush structure with an up-and-down moving function, and a cable carding structure with a swinging function is arranged on the electrostatic brush structure; according to the invention, the electrostatic brush structure is arranged in the equipment case, so that static electricity on the cable and the storage unit can be prevented, external dust adsorption is avoided, and the cable carding structure can synchronously work by means of the movement of the electrostatic brush structure.

Description

Large computer equipment for big data

Technical Field

The invention relates to the technical field of information processing and storage support services such as industrial data integration service and the like, in particular to large-scale computer equipment for big data.

Background

In the field of industrial production, due to the gradual increase of intelligent devices and the requirement of unified coordination work, industrial big data collection and processing are often required, stable storage support services are provided, and the smooth proceeding of industrial production is helped.

Because the capacity required by mass data is very high and the traditional small computer is difficult to support, a plurality of manufacturers can store and calculate data by adopting large computer equipment. The mainframe computer as a business server has good reliability, safety, backward compatibility and extremely efficient I/O performance, and generally emphasizes large-scale data input and output and emphasizes data throughput, so the mainframe computer tends to have larger volume and more precise elements.

During the use of a large computer, static electricity is easily generated on parts, so that dust in the environment is accumulated in the computer, and the efficiency of the computer is reduced. However, the existing large computer does not have good static electricity eliminating capability, and the disordered cable inside the large computer is more likely to cause the problems of static electricity generation and heat accumulation.

Disclosure of Invention

The invention aims to provide large-scale computer equipment for big data, so as to achieve the purposes of flexibly arranging wires and eliminating static electricity and solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a large computer device for big data comprises a device case, wherein the device case is fixed on a base, a storage unit is fixedly arranged in the device case, a support rod is fixedly arranged in the device case, a slide rod is fixedly connected onto the support rod, a movable seat is slidably arranged on the slide rod and is connected with the slide rod through a slide hole, a wire clamping structure with an elastic adaptation function is arranged on the movable seat, a power connection plate is fixedly arranged on the base, a conductive wire is fixedly connected onto a ground plate, an electrostatic brush structure with an up-and-down moving function is fixedly connected onto the conductive wire, a cable carding structure with a swinging function is arranged on the electrostatic brush structure, a brine tank is fixedly arranged on the base, a piston is movably arranged on the brine tank, a pressure end plate is fixedly arranged on the piston, and a pushing seat is fixedly connected onto the pressure end plate, and the brine tank is connected with the electric connection plate through the guide rod, and the compression end plate is connected with a water absorption structure with a contraction function.

Preferably, the wire clamping structure comprises a wire clamping groove arranged on the movable seat and a side plate fixedly installed on the movable seat, a locking spring is fixedly connected to the side plate, a wire clamping plate is fixedly connected to the locking spring, two wire clamping plates are symmetrically arranged on the movable seat relative to the wire clamping groove, and the wire clamping plates are arranged to be arc-shaped plates.

Preferably, the static brush structure includes a vertical guide rail fixedly installed in the equipment cabinet, and a guide block is slidably installed in the vertical guide rail, the guide block is fixedly connected to the nut seat, the nut seat is in threaded connection with the lead screw, the nut seat is fixedly connected with the conductive plate, and the conductive brush is fixedly connected to the conductive plate.

Preferably, the vertical guide rail is vertically installed in a box space of the equipment cabinet, the guide block is installed in the vertical guide rail in a limiting and sliding manner, the nut seat is connected to the side surface of the guide block, the screw rod is driven by a motor in the base, the conductive plate is horizontally installed on the side surface of the nut seat, and the conductive brush is in contact with the storage unit and the cable.

Preferably, the cable carding structure comprises a supporting plate fixedly mounted on a nut seat, a carding rod is rotatably mounted on the supporting plate through a torsional spring shaft, a carding piece is fixedly connected to the carding rod, a bottom rod is fixedly connected to the carding rod, a movable plate is slidably mounted on the supporting plate, and a push rod and a telescopic rod are fixedly connected to the movable plate.

Preferably, the supporting plate is located below the power receiving plate, the carding rods are labor-consuming levers, the carding rods are arranged on the supporting plate, the carding pieces are arranged at the long ends of the carding rods, the bottom rods are vertically connected to the short ends of the carding rods, the push rods are in contact connection with the bottom rods, and the telescopic rods are fixedly mounted on the supporting plate.

Preferably, brine tank fixed mounting is on the front surface of base, and is equipped with the weak brine in the brine tank, the piston forms in the brine tank and promotes the extrusion structure, and the water conservancy diversion pole is installed on the apopore of brine tank bottom, the compression end plate is connected on the piston rod of piston, and is provided with reset spring on the piston rod, it runs through and installs on the lateral wall of equipment machine case to promote the seat, and promotes the below that the tip of seat is located cable carding structure.

Preferably, the water absorption structure comprises a first rack fixedly connected to the compression end plate, a gear is meshed with the first rack and installed on the second rack, the second rack is fixedly connected to the suspender, the suspender is hung with water absorption cotton through a rope, and the suspender is slidably installed on the inclined support block.

Preferably, the gear is rotatably installed on the base through a wheel shaft, the first rack is vertically installed, the second rack is horizontally installed, the hanging rod is connected to a limiting rod of the inclined support block through a limiting groove, and the inclined support block is provided with an inclined plane.

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

1. in the computer equipment chassis, a certain cavity is reserved at the back of the storage unit, the wire clamping structure arranged on the movable seat can be used for fixing and arranging the cables of the storage unit, the movable seat has certain activity, the space between the cables can be adjusted by moving the movable seat after the cables are fixed, and the wire clamping plate can also move to a certain degree according to the thickness of the cables and is suitable for different cable models, so that the cables of large-scale computer equipment can be more orderly, and the cables can be conveniently carded and removed;

2. the electrostatic brush structure is also arranged in the equipment case, after cables are fixed in the wire clamping structure in a row, in the long-term use process, static electricity can be intermittently removed through the electrostatic brush structure, the cables and the storage units are prevented from containing static electricity to cause the adsorption of external dust, and the cable carding structure can synchronously work by depending on the movement of the electrostatic brush structure, the distance between the cables is adjusted while the static electricity is eliminated, the problem of energy consumption increase caused by the fact that the cables are attached together is prevented, the direction of the carding rod can be synchronously adjusted according to needs, the carding rod is driven to rotate by the expansion and contraction of the telescopic rod to adjust the carding direction, so that the electrostatic brush structure has strong consistency and the optimal carding effect is achieved;

3. in order to ensure that the grounding plate has a good static guiding effect, the invention also installs the brine tank on the base, wherein the brine tank is filled with fresh brine, in the process of elimination, the cable carding structure can press the pushing seat downwards, and the pressure generated by the pushing of the pressed end plate to the piston acts on the fresh brine, so that the fresh brine flows to the grounding plate through the guide rod, the grounding effect of the grounding plate is enhanced, the inside of the equipment case is ensured not to have static electricity, and after one static electricity leading-out work, in order to avoid the influence of the long-time existence of the fresh brine on the electrical safety of the computer, the invention is also provided with the water absorption structure which can absorb the fresh brine, so that the fresh brine on the grounding plate is dried quickly, and the water absorption structure of the invention has a contraction function, and automatic contraction is carried out, so that influence on the static electricity removal process is avoided.

Drawings

FIG. 1 is a schematic front view of a row structure of the apparatus of the present invention;

FIG. 2 is a schematic rear view of the row structure of the apparatus of the present invention;

FIG. 3 is a schematic view of a single case structure of the present invention;

FIG. 4 is a schematic view of the back side of the housing of the present invention shown open;

FIG. 5 is a schematic diagram of a grounding structure according to the present invention;

FIG. 6 is a schematic view of the in-box structure of the present invention;

FIG. 7 is a schematic view of a wire clamping structure according to the present invention;

FIG. 8 is a schematic view of a wire clamping seat structure according to the present invention;

figure 9 is a schematic view of an electrostatic brush configuration of the present invention;

fig. 10 is a schematic diagram of a wire management structure according to the present invention.

In the figure: the device comprises a device case 1, a base 2, a storage unit 3, a support rod 4, a sliding rod 5, a movable seat 6, a sliding hole 7, a wire clamping groove 8, a side plate 9, a locking spring 10, a wire clamping plate 11, an electric connection plate 12, a conductive wire 13, a vertical guide rail 14, a guide block 15, a nut seat 16, a screw rod 17, a conductive plate 18, a conductive brush 19, a supporting plate 20, a carding rod 21, a carding sheet 22, a bottom rod 23, a movable plate 24, a push rod 25, a telescopic rod 26, a brine tank 27, a pressure end plate 28, a piston 29, a pushing seat 30, a guide rod 31, a first rack 32, a gear 33, a second rack 34, a hanging rod 35, water absorption cotton 36 and an inclined support block 37.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, wherein various embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict, and it should be understood that the described embodiments are only a part of embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: a large-scale computer device for big data comprises a device case 1, the device case 1 is fixed on a base 2, a storage unit 3 is fixedly arranged in the device case 1, a support rod 4 is fixedly arranged in the device case 1, a slide rod 5 is fixedly connected on the support rod 4, a movable seat 6 is slidably arranged on the slide rod 5, the movable seat 6 is connected with the slide rod 5 through a slide hole 7, a wire clamping structure with an elastic adaptation function is arranged on the movable seat 6, a power connection plate 12 is fixedly arranged on the base 2, a conductive wire 13 is fixedly connected on the ground plate 12, the conductive wire 13 is fixedly connected with an electrostatic brush structure with an up-down moving function, the electrostatic brush structure is provided with a cable carding structure with a swinging function, a brine tank 27 is fixedly arranged on the base 2, a piston 29 is movably arranged on the brine tank 27, and an end plate 28 is fixedly arranged on the piston 29 under pressure, the pressure end plate 28 is fixedly connected with a pushing seat 30, the brine tank 27 is connected with the electric connection plate 12 through a guide rod 31, and the pressure end plate 28 is connected with a water absorption structure with a contraction function.

In the computer equipment case 1, a certain cavity is reserved at the back of the storage unit 3, the support rod 4 can be installed, the sliding rod 5 on the support rod 4 is used for installing the movable seat 6, the wire clamping structure arranged on the movable seat 6 is used for fixing and arranging the cables of the storage unit 3, and the movable seat 6 has certain mobility, so that the space between the cables can be adjusted by moving the movable seat 6 after the cables are fixed;

the wire clamping structure comprises wire clamping grooves 8 arranged on the movable seat 6 and side plates 9 fixedly arranged on the movable seat 6, locking springs 10 are fixedly connected to the side plates 9, wire clamping plates 11 are fixedly connected to the locking springs 10, the side plates 9 are symmetrically arranged on the movable seat 6 relative to the wire clamping grooves 8, and the wire clamping plates 11 are arc-shaped plates;

when the wire clamping structure on the movable seat 6 is used, a cable can be firstly placed into the wire clamping groove 8, then the cable is clamped and fixed through the two wire clamping plates 11, the wire clamping plates 11 can generate clamping force to act on two sides of the cable under the action of the elastic force of the locking springs 10, and the wire clamping plates 11 can also move to a certain extent according to different thicknesses of the cable so as to adapt to different cable models;

the static brush structure comprises a vertical guide rail 14 fixedly installed in the equipment cabinet 1, a guide block 15 is installed in the vertical guide rail 14 in a sliding mode, the guide block 15 is fixedly connected to a nut seat 16, the nut seat 16 is connected to a screw rod 17 in a threaded mode, a conductive plate 18 is fixedly connected to the nut seat 16, and a conductive brush 19 is fixedly connected to the conductive plate 18;

meanwhile, the electrostatic brush structure is also arranged in the equipment case 1, after the cables are fixed in the wire clamping structure in a row, in the long-term use process, the electrostatic brush structure can intermittently remove static electricity, so that the cables and the storage units are prevented from containing static electricity to cause the adsorption of external dust;

the vertical guide rail 14 is vertically installed in the box space of the equipment case 1, the guide block 15 is installed in the vertical guide rail 14 in a limiting and sliding mode, the nut seat 16 is connected to the side face of the guide block 15, the screw rod 17 is driven by a motor in the base 2, the conductive plate 18 is horizontally installed on the side face of the nut seat 16, and the conductive brush 19 is in contact with the storage unit 3 and the cable;

when the electrostatic brush structure is used, the nut seat 16 is driven by utilizing the rotation of the screw rod 17, the guide block 15 can be connected with the vertical guide rail 14 to guide the nut seat 16, so that the nut seat 16 can move up and down in a reciprocating manner, the conductive plate 18 on the nut seat 16 drives the conductive brush 19 to be attached to a cable and an electronic element to move, static electricity is transferred to the conductive wire 13 through the conductive brush 19 and the conductive plate 18, and finally the static electricity is sent to the ground through the ground plate 12 to complete the static electricity elimination work, thereby effectively preventing the problems of dust adsorption and heat accumulation aggravation caused by the static electricity;

the cable carding structure comprises a supporting plate 20 fixedly mounted on a nut seat 16, a carding rod 21 is rotatably mounted on the supporting plate 20 through a torsion spring shaft, a carding piece 22 is fixedly connected to the carding rod 21, a bottom rod 23 is fixedly connected to the carding rod 21, a movable plate 24 is slidably mounted on the supporting plate 20, and a push rod 25 and a telescopic rod 26 are fixedly connected to the movable plate 24;

the cable carding structure can work synchronously by means of the movement of the electrostatic brush structure, the distance between cables is adjusted while static electricity is eliminated, and the problem that energy consumption is increased due to the fact that the cables are attached together is solved;

the support plate 20 is positioned below the electric connection plate 12, the carding rods 21 are labor-consuming levers, the carding rods 21 are arranged on the support plate 20, the carding pieces 22 are arranged at the long ends of the carding rods 21, the bottom rods 23 are vertically connected to the short ends of the carding rods 21, the push rods 25 are in contact connection with the bottom rods 23, and the telescopic rods 26 are fixedly arranged on the support plate 20;

the cable carding structure is connected with the nut seat 16 through the supporting plate 20, so that the supporting plate 20 can reciprocate up and down, the plurality of carding rods 21 on the supporting plate can be used for moving along the direction of a cable, the carding pieces 22 can straighten the cable like carding hair, the cable can be prevented from being entangled and attached, good heat dissipation performance is guaranteed, the direction of the carding rods 21 can be synchronously adjusted according to needs, the movable plate 24 is driven to move by the extension and retraction of the telescopic rod 26, the bottom rod 23 can be pushed through the push rod 25 on the bottom rod, the carding rods 21 are further driven to rotate to adjust the carding direction, and the cable carding structure has strong consistency and achieves the best carding effect;

the brine tank 27 is fixedly installed on the front surface of the base 2, fresh brine is filled in the brine tank 27, the piston 29 forms a pushing and extruding structure in the brine tank 27, the guide rod 31 is installed on a water outlet hole at the bottom of the brine tank 27, the compression end plate 28 is connected to a piston rod of the piston 29, a return spring is arranged on the piston rod, the pushing seat 30 is installed on the side wall of the equipment case 1 in a penetrating mode, and the end portion of the pushing seat 30 is located below the cable combing structure;

in order to ensure that the grounding plate 12 has a good static guiding effect, the invention also mounts a brine tank 27 on the base 2, wherein the brine tank is filled with light brine, when the supporting plate 20 moves to the bottom in the process of elimination, the pushing seat 30 can be pressed downwards, and the pressure is generated to act on the brine water by pushing the piston 29 by the pressure end plate 28, so that the light brine flows onto the grounding plate 12 through the guide rod 31, the grounding effect of the electric connection plate 12 is enhanced, and the inside of the equipment case 1 is ensured to be free from static electricity;

the water absorption structure comprises a first rack 32 fixedly connected to the compression end plate 28, a gear 33 is arranged on the first rack 32 in a meshed mode, the gear 33 is arranged on a second rack 34 in a meshed mode, the second rack 34 is fixedly connected to a suspender 35, water absorption cotton 36 is hung on the suspender 35 through a rope, and the suspender 35 is installed on an inclined support block 37 in a sliding mode;

after one static electricity leading-out work, in order to avoid the influence of the long-time existence of the dilute brine on the electrical safety of the computer, the water absorption structure is further arranged, the dilute brine can be absorbed and removed, so that the dilute brine on the grounding plate 12 is dried quickly, the water absorption structure has a contraction function, when the dilute brine just flows onto the grounding plate 12, the water absorption structure contracts automatically, and the influence on the static electricity removing process is avoided;

the gear 33 is rotatably installed on the base 2 through a wheel shaft, the first rack 32 is vertically installed, the second rack 34 is horizontally installed, the suspender 35 is connected to a limiting rod of the inclined supporting block 37 through a limiting groove, and an inclined plane is arranged on the inclined supporting block 37;

when the pressed end plate 28 is pressed downwards, the light saline flows onto the ground plate 12, the first rack 32 can be pushed to drive the gear 33 to rotate, the second gear 34 is driven to drive the suspender 35 to move to the side, the absorbent cotton 36 is driven to move to the inclined support block 37 and is not contacted with the light saline, and after static electricity removal is completed and the supporting plate 20 is removed, the absorbent cotton 36 can be reset to absorb redundant light saline;

when the invention is used: firstly, in the computer equipment cabinet 1 of the invention, a certain cavity is reserved at the back of the storage unit 3, the support rod 4 can be installed, the movable seat 6 is installed by the slide rod 5 on the support rod 4, the wire clamping structure arranged on the movable seat 6 is utilized to fix and arrange the wires of the storage unit 3, and the movable seat 6 has certain activity, so that the distance between the wires can be adjusted by the movement of the movable seat 6 after the wires are fixed, when the wire clamping structure on the movable seat 6 is used, the wires can be firstly placed into the wire clamping groove 8, then the wires are clamped and fixed by the two wire clamping plates 11, the wire clamping plates 11 can generate clamping force to act on two sides of the wires under the elastic action of the locking springs 10, and the wire clamping plates 11 can also move to a certain degree according to the thickness of the wires, so as to adapt to different wire model types, meanwhile, the installation of the electrostatic brush structure is also carried out in the equipment case 1, after the cables are fixed in the wire clamping structure in a row, in the long-term use process, the electrostatic brush structure can intermittently remove static electricity to prevent the cables and the storage units from containing static electricity to cause the adsorption of external dust, when the electrostatic brush structure is used, the nut seat 16 is driven by the rotation of the lead screw 17, the guide block 15 can be connected with the vertical guide rail 14 to guide the nut seat 16, so that the nut seat 16 can move up and down in a reciprocating way, the conductive plate 18 on the nut seat 16 drives the conductive brush 19 to be attached to the cables and electronic elements to move, the static electricity is transferred to the conductive wire 13 through the conductive brush 19 and the conductive plate 18, and finally the static electricity is sent to the ground through the ground plate 12 to complete the static electricity elimination work, thereby effectively preventing the dust adsorption caused by the static electricity, Aggravate the problem of heat accumulation, and rely on the removal of the electrostatic brush structure, can also make the synchronous work of cable carding structure, when eliminating static, adjust the interval of the cable, prevent to paste and lean on and cause the problem that the energy consumption increases to appear together, the cable carding structure is connected with nut seat 16 through layer board 20, therefore layer board 20 can reciprocate from top to bottom, utilize a plurality of carding rods 21 on it to move along the direction of the cable, carding piece 22 is just like combing the hair with the cable, can prevent the cable from entangling, laminating, good heat dispersion has been guaranteed, and as required, the direction of carding rod 21 can be adjusted synchronously, utilize the flexible of telescopic link 26, drive fly leaf 24 to move, can promote sill bar 23 through push rod 25 on it, and then drive carding rod 21 to rotate and adjust the carding direction, have very strong uniformity, the invention achieves the best carding effect, and in order to ensure that the grounding plate 12 has good static guiding effect, the invention also carries out the installation of the brine tank 27 on the base 2, wherein the brine tank is filled with fresh brine, when the supporting plate 20 moves to the bottom in the elimination process, the pushing seat 30 can be pressed downwards, the pressure is generated to act on the fresh brine through the pushing of the pressed end plate 28 to the piston 29, so that the fresh brine flows to the grounding plate 12 through the guide rod 31, the grounding effect of the grounding plate 12 is enhanced, the static electricity is ensured not to exist in the equipment case 1, and after the primary static electricity leading-out work, in order to avoid the influence of the long-time existence of the fresh brine on the electrical safety of a computer, the invention is also provided with a water absorbing structure which can absorb the fresh brine, so that the fresh brine on the grounding plate 12 is dried up quickly, and the water absorbing structure has the contraction function, when the weak brine just flows to the ground plate 12, carry out automatic shrink, avoid causing the influence to the process of destaticing, it is specific, when the pressurized end plate 28 pushes down, except making weak brine flow to the ground plate 12 on, can also promote first rack 32, make it drive gear 33 and rotate, and then drive second gear 34, drive jib 35 and remove to the side, drive cotton 36 that absorbs water and remove to oblique tray 37 on, do not contact with weak brine, and after destaticing, the layer board 20 withdraws, cotton 36 that absorbs water then can reset, absorb unnecessary weak brine.

The above embodiments are merely preferred embodiments of the present invention, and the scope of the present invention should not be limited thereto, and those skilled in the art will be able to make various modifications without inventive changes from the above concepts and the scope of the present invention.

Claims (9)

1. A mainframe computer device for big data, comprising a device chassis (1), characterized in that: the equipment cabinet (1) is fixed on a base (2), a storage unit (3) is fixedly mounted in the equipment cabinet (1), a support rod (4) is fixedly mounted in the equipment cabinet (1), a sliding rod (5) is fixedly connected to the support rod (4), a movable seat (6) is slidably mounted on the sliding rod (5), the movable seat (6) is connected with the sliding rod (5) through a sliding hole (7), a wire clamping structure with an elastic adaptation function is arranged on the movable seat (6), a power connection plate (12) is fixedly mounted on the base (2), a conductive wire (13) is fixedly connected to the ground plate (12), the conductive wire (13) is fixedly connected with an electrostatic brush structure with an up-down moving function, a cable carding structure with a swinging function is mounted on the electrostatic brush structure, and a brine tank (27) is fixedly mounted on the base (2), and movable mounting has piston (29) on brine tank (27), and fixed mounting has pressurized end plate (28) on piston (29), fixedly connected with pushes away seat (30) on pressurized end plate (28), and brine tank (27) are connected with electricity board (12) through water conservancy diversion pole (31), be connected with the water absorption structure that has the contraction work ability on pressurized end plate (28).

2. A mainframe computer device for big data according to claim 1, wherein: the wire clamping structure comprises a wire clamping groove (8) formed in the movable seat (6) and a side plate (9) fixedly installed on the movable seat (6), a locking spring (10) is fixedly connected to the side plate (9), a wire clamping plate (11) is fixedly connected to the locking spring (10), the side plate (9) is symmetrically arranged on the movable seat (6) in the manner of being symmetrical to the wire clamping groove (8), and the wire clamping plate (11) is arranged to be an arc-shaped plate.

3. A mainframe computer device for big data according to claim 1, wherein: the static brush structure is including vertical guide rail (14) of fixed mounting in equipment machine case (1), and slidable mounting has guide block (15) in vertical guide rail (14), guide block (15) fixed connection is on nut seat (16), and nut seat (16) threaded connection is on lead screw (17), fixedly connected with current conducting plate (18) on nut seat (16), and fixedly connected with electrically conductive brush (19) on current conducting plate (18).

4. A mainframe computer device for big data according to claim 3, wherein: the vertical guide rail (14) is vertically installed in the box body space of the equipment cabinet (1), the guide block (15) is installed in the vertical guide rail (14) in a limiting and sliding mode, the nut seat (16) is connected to the side face of the guide block (15), the screw rod (17) is driven by a motor in the base (2), the conductive plate (18) is horizontally installed on the side face of the nut seat (16), and the conductive brush (19) is in contact with the storage unit (3) and the cable.

5. A mainframe computer device for big data according to claim 4, wherein: the cable carding structure comprises a supporting plate (20) fixedly mounted on a nut seat (16), a carding rod (21) is mounted on the supporting plate (20) through rotation of a torsion spring shaft, a fixedly connected carding piece (22) is mounted on the carding rod (21), a fixedly connected bottom rod (23) is mounted on the carding rod (21), a movable plate (24) is mounted on the supporting plate (20) in a sliding mode, and a fixedly connected push rod (25) and a telescopic rod (26) are mounted on the movable plate (24).

6. A mainframe computer device for big data according to claim 5, wherein: the carding mechanism is characterized in that the supporting plate (20) is located below the electricity receiving plate (12), the carding rods (21) are labor-consuming levers, the carding rods (21) are arranged on the supporting plate (20), the carding pieces (22) are arranged at the long ends of the carding rods (21), the bottom rods (23) are perpendicularly connected to the short ends of the carding rods (21), the push rods (25) are in contact connection with the bottom rods (23), and the telescopic rods (26) are fixedly mounted on the supporting plate (20).

7. A mainframe computer device for big data according to claim 1, wherein: brine tank (27) fixed mounting is at the front surface of base (2), and is equipped with weak brine in brine tank (27), piston (29) form in brine tank (27) and promote the extrusion structure, and water conservancy diversion pole (31) are installed on the apopore of brine tank (27) bottom, pressurized end plate (28) are connected on the piston rod of piston (29), and are provided with reset spring on the piston rod, it installs on the lateral wall of equipment machine case (1) to promote seat (30) to run through, and the tip of promoting seat (30) is located the below of cable carding structure.

8. A mainframe computer device for big data according to claim 1, wherein: the water absorption structure comprises a first rack (32) fixedly connected to a pressure end plate (28), a gear (33) is installed on the first rack (32) in a meshed mode, the gear (33) is installed on a second rack (34) in a meshed mode, the second rack (34) is fixedly connected to a suspender (35), water absorption cotton (36) is hung on the suspender (35) through a rope, and the suspender (35) is installed on an inclined supporting block (37) in a sliding mode.

9. A mainframe computer device for big data according to claim 8, wherein: the gear (33) is rotatably installed on the base (2) through a wheel shaft, the first rack (32) is vertically installed, the second rack (34) is horizontally installed, the hanging rod (35) is connected to a limiting rod of the inclined supporting block (37) through a limiting groove, and an inclined plane is arranged on the inclined supporting block (37).

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