CN120600061A - A modular storage server - Google Patents

Abstract

The present invention provides a modular storage server, which relates to the technical field of storage servers and includes a storage chassis and a heat dissipation mechanism. A power supply chassis is docked and installed on one side of the storage chassis. A storage body is provided in the storage chassis, and the storage body is installed on the top of a guide component. The guide component is installed in the storage chassis and is used to drive the storage body in and out of the storage chassis. A battery for powering the storage body is provided in the power supply chassis, and the battery is provided in a placement component. The placement component is slidably installed in the power supply chassis. The power supply chassis is also equipped with an outward drive component, which is assembled and connected to the placement component and is used to clamp and/or drive the battery in and out of the power supply chassis; a storage slot is provided on the top of the power supply chassis, and a photovoltaic component is installed inside the storage slot; the storage server provided by the present application can meet the use requirements of the equipment during outdoor carrying and is convenient for inspection and maintenance.

Description

Modularized storage server

Technical Field

The application relates to a split application of an application application with the application date of 2024, 12 months and 4 days, chinese application number of 2024117656435 and the application name of a modularized portable storage server.

Background

A storage server is a type of computer server used to store and protect data. The storage server provides a large amount of storage space, can store a large amount of data, including files, databases, application programs and the like, and generally has the characteristics of high reliability, high performance, expandability, safety and the like so as to meet the demands of enterprises of different scales and types.

The storage server typically includes two parts, a hardware part including a storage device, a server, a network connection device, etc., and a software part including an operating system, storage management software, data backup and restore software, etc. The storage server may employ different storage technologies such as mechanical hard disk, solid state disk, network Attached Storage (NAS), storage Area Network (SAN), and the like.

The storage server plays an important role in enterprises, can help the enterprises to centrally manage and protect data, improves the availability and safety of the data, and can help the enterprises to reduce the storage cost and management complexity. Along with the continuous development of technologies such as big data, cloud computing and the like, the application scene of a storage server is more and more extensive, and becomes an indispensable part of an enterprise IT infrastructure;

however, the existing storage server is generally used for integrated operation, is not easy to be assembled quickly, and has the following defects when the storage server is used outdoors:

1. The operation assembly of the server is not easy to rapidly overhaul and replace when outdoor operation is abnormal, so that personnel can disassemble and assemble the operation assembly through the appliance, and the effect of modularized combination carrying is not achieved;

2. the server needs to be matched with the peripheral equipment through specific facilities, such as protection facilities and power supply facilities, otherwise, the server is influenced when in outdoor use and cannot continuously operate, and when the peripheral equipment and the server are matched and connected, personnel are required to be assembled and connected one by one, so that the complexity of personnel operation is increased;

The present application therefore proposes a modular storage server.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a modularized storage server, which solves the problems in the background art.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the utility model provides a modularization storage server, includes storage machine case, power supply machine case and cooling mechanism, the inside of storage machine case is provided with placing chamber and conduction room, the inside of conduction room is equipped with the conduction subassembly that extends to the placing chamber, the top butt joint of conduction subassembly is installed and is stored the organism, the power supply machine case is installed in butt joint of one side of storage machine case, the inside of power supply machine case is provided with placing chamber, driving chamber, and the inside slidable mounting of placing chamber has placing assembly, the inside clamping of placing assembly has the battery, the inside of driving chamber is equipped with overhanging driving assembly, and overhanging driving assembly and placing assembly assembled connection, the top of power supply machine case is provided with the storage tank, the inside of storage tank is equipped with photovoltaic module, be equipped with cooling mechanism jointly between storage machine case and the power supply machine case, one side of storage machine case is covered by cooling mechanism, and one side of storage machine case dispels the heat through cooling mechanism;

The heat dissipation mechanism comprises a heat dissipation component, a sealing component and a butt joint component, wherein the butt joint component is arranged at the top of the storage case and the top of the power supply case in a butt joint mode, the sealing component is assembled at the port of the butt joint component, the heat dissipation component is fixedly arranged at the bottom of the butt joint component, and the heat dissipation component covers the outer side face of the storage case; the photovoltaic assembly comprises a mounting cavity, an expanding assembly, a second photovoltaic plate, a guide plate and a positioning guide rod, wherein the top in the storage groove is fixedly provided with the positioning guide rod, the guide plate is sleeved on the positioning guide rod, the guide plate is internally provided with a guide opening matched with the positioning guide rod, the side surface of the guide plate is fixedly provided with a mounting cavity, the side surface of the mounting cavity is fixedly provided with a second photovoltaic panel, and the inside of the mounting cavity is slidably provided with two groups of expansion components; the overhanging driving assembly comprises a driving part, a clamping part and a clamping plate I, the placing assembly comprises a placing frame and a supporting plate, the placing frame is slidably arranged in the placing chamber, the supporting plate is fixedly arranged in the placing frame, the driving part is arranged in the driving chamber in a butt joint mode, the clamping part extending into the placing chamber is arranged in the driving chamber, the clamping plate I is arranged in the driving end of the clamping part in a butt joint mode, the driving part and the clamping part are mutually assembled and driven, the guiding assembly comprises a supporting plate, a guiding part, a carrier plate and a sliding rod, the guiding part is arranged in the guiding chamber, the supporting plate extending into the placing chamber is arranged at the top of the guiding part, the sliding rod penetrating through the supporting plate is arranged in the placing chamber in a butt joint mode, the carrier plate is slidably arranged at the top of the sliding rod, and a storage machine body is clamped at the top of the carrier plate.

Further, the front and back of the storage case are fixedly provided with the second air guide channel, the front and back of the power supply case are fixedly provided with the first air guide channel, the second air guide channel is mutually spliced and communicated with the first air guide channel, the butt joint assembly comprises a top plate and a plugboard, the second air guide channel is spliced and communicated with the inside of the first air guide channel, the top of the plugboard is fixedly provided with the top plate, the plugboard is provided with built-in air passages communicated with the storage case and the inside of the power supply case, the plugboard is respectively spliced and communicated with the second air guide channel and the first air guide channel, air in the first air guide channel is led into the second air guide channel through the built-in air passages, and air in the second air guide channel is led into the power supply case through the built-in air passages.

The butt joint assembly further comprises a second plugging plate, a first toothed plate, a motor, a screw rod and a guide block, wherein the sealing assembly comprises a baffle, a first plugging plate, a hinged cover plate, a movable shaft and a first gear, an operation port is formed in the top plate, the second plugging plate is inserted into the operation port, an installation chamber is formed in the back face of the top plate, a guide port is formed between the installation chamber and the operation port, the motor is fixedly installed in the installation chamber, the screw rod is installed in butt joint with an output shaft of the motor, the guide block is sleeved on the screw rod, the guide block penetrates through the guide port and is fixedly connected with the second plugging plate, the first toothed plate is fixedly installed at the bottom of the screw rod, the movable shaft which extends into the installation chamber is installed in butt joint with the outer port of the top plate, the first gear meshed with the first toothed plate is installed in the butt joint mode, the baffle is fixedly installed on the movable shaft, the baffle is located in the outer port of the top plate, the first plugging plate is fixedly installed on one side of the baffle, the hinged cover plate is installed in butt joint mode at the port of the installation chamber, the first toothed plate is driven by the motor through the screw rod, and the first toothed plate is driven by the screw rod to overturn by the first toothed plate.

Further, the heat dissipation assembly comprises a mounting shell, a second butt joint opening, a heat dissipation cavity and a heat dissipation fan, wherein the mounting shell is fixedly arranged on one side of the bottom of the top plate, the second butt joint opening is arranged on the outer side of the mounting shell, the heat dissipation cavity is arranged in the mounting shell, the heat dissipation fan is assembled in the heat dissipation cavity, and a gas guide window for heat dissipation is arranged between the second butt joint opening and the heat dissipation cavity;

One side of the storage case is provided with a window communicated with the placing chamber, the window is communicated with the heat dissipation cavity, and the heat dissipation fan conducts air guide heat dissipation on the placing chamber through the window.

Further, the expansion assembly further comprises a slat, a first photovoltaic plate, a connecting block, a positioning pin shaft and a shaft rod, two groups of slats are slidably arranged in the installation cavity, the shaft rod is arranged in the outward sliding surface of the slat in a connecting way, the connecting block is movably arranged in the shaft rod through the positioning pin shaft, the first photovoltaic plate is fixedly arranged at the end part of the connecting block and moves in the shaft rod through the positioning pin shaft, the first photovoltaic plate rotates on the slat through the shaft rod, and the first photovoltaic plate moves in a telescopic way in the installation cavity through the slat;

The photovoltaic module further comprises a first clamping block, two groups of first clamping blocks are fixedly arranged at the top of the guide plate, two groups of first clamping grooves are formed in the top of the baffle plate, and the first clamping blocks are matched with the first clamping grooves in a clamping manner.

The driving component comprises a fourth gear, a third toothed plate, a fifth gear and a second transmission shaft, the clamping component comprises a second gear, a first transmission shaft, a second toothed plate, an installation seat and a third gear, the second transmission shaft extending into the driving chamber is installed in a butt joint mode at the top of the power supply machine box, the fourth gear is installed in a butt joint mode at the bottom of the second transmission shaft, the installation seat is fixedly installed on the inner wall of the driving chamber, the first transmission shaft penetrating through the installation seat is installed in the butt joint mode in the driving chamber, the third gear is installed in the butt joint mode at the end portion of the first transmission shaft, the second gear is sleeved on the first transmission shaft, the second toothed plate extending into the installation chamber is installed in the butt joint mode in the inner portion of the driving chamber, the second toothed plate is meshed with the second gear, the fifth gear meshed with the third gear is sleeved on the second transmission shaft in the butt joint mode at the end portion of the second toothed plate, the third toothed plate extending into the driving chamber is fixedly installed at the bottom of one side of the placing frame, and the fourth gear meshed with the third toothed plate is fixedly installed at the bottom of the second transmission shaft.

Further, the top and the bottom of rack all are provided with first slider, and first slider and power machine case sliding connection, and the inboard fixed mounting of rack has the spring, and splint second is installed in joint jointly to the tip of spring, through sliding spacing connection between splint second and the layer board.

Further, the guide part comprises an upper toothed plate, a lower toothed plate, a sixth gear, a rotary guide rod and a connecting seat, the front of the storage case is in butt joint with the rotary guide rod which extends into the conduction chamber, the sixth gear is sleeved on the rotary guide rod, the lower toothed plate meshed with the sixth gear is slidably arranged at the bottom of the conduction chamber, the connecting seat which extends into the conduction chamber is fixedly arranged at the bottom of the supporting plate, and the upper toothed plate meshed with the sixth gear is fixedly arranged at the bottom of the connecting seat.

Further, the top of support plate is provided with joint groove two, the bottom fixed mounting of storage organism has joint piece two, and joint piece two and joint groove two mutual joint are fixed, through second slider sliding connection between support plate and the backup pad, one side of storage organism is butt joint respectively and is installed branch plug, data plug, the inboard fixed mounting of storage machine case has the power plug, the storage organism is through branch plug and power plug electric connection, the top fixed mounting of storage machine case has the grafting unit, the grafting end and the data plug electric connection of grafting unit, the inboard of power supply machine case is provided with interface one, the inside fixed mounting of interface one has the power socket, and the power socket passes through line area and battery electric connection, the top of storage machine case and power supply machine case is all fixed mounting, and the handle runs through the roof.

Furthermore, the bottoms of the storage case and the power supply case are fixedly provided with bases, two groups of fastening bolts are arranged between the bases in a butt joint mode, and travelling wheels are fixedly arranged at the bottoms of the bases.

The invention provides a modularized storage server. Compared with the prior art, the method has the following beneficial effects:

1. The storage case, the power supply case and the heat dissipation mechanism are combined to form a complete storage server main body, so that the modular assembly operation of the server is realized;

2. Through mutually supporting between photovoltaic module and the cooling mechanism, both can realize the photovoltaic energy-conservation of server, satisfy the user demand during outdoor carrying, increase the energy-conserving effect of server, and overlap joint with the cooling mechanism during the operation of server, and form and enclose and keep off the effect, guarantee the stability of photovoltaic module during the operation, and cooling mechanism can switch the state according to the actual operation of server, when the server is in operation, cooling mechanism can enter into the cooling state, and build with photovoltaic module and assemble, when the server is in non-operation, cooling mechanism can withdraw from the cooling state, and accomplish the shutoff to the cooling region, make the server have good protective effect when non-operation;

Through overhanging drive assembly and place between the subassembly mutually supporting, after personnel place the battery, personnel can carry out synchronous operation, and personnel only need accomplish through rotatory mode and place the framework and carry out the income to the battery of income to carry out the clamping at the income, guarantee the stability of battery in placing the framework.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram showing the overall assembly state of a server according to the present invention;

FIG. 2 shows a first modular assembled state architecture diagram of the server of the present invention;

FIG. 3 shows a second modular assembled state architecture diagram of the server of the present invention;

FIG. 4 is a schematic view showing a first assembled state of the heat dissipating mechanism of the present invention;

FIG. 5 is a schematic view showing a second assembled state of the heat dissipating mechanism of the present invention;

FIG. 6 is a schematic view showing a first assembled state of the storage enclosure and the storage body of the present invention;

FIG. 7 is a schematic diagram showing a second assembled state of the storage enclosure and the storage body according to the present invention;

FIG. 8 is a schematic diagram showing a first assembled state of the storage enclosure and the routing assembly of the present invention;

FIG. 9 is a schematic diagram showing a second assembled state of the storage enclosure and the routing assembly of the present invention;

figure 10 shows a schematic view of the photovoltaic module of the present invention in a first assembled state;

FIG. 11 shows a schematic structural view of a photovoltaic module according to the invention in a second assembled state;

FIG. 12 is a schematic structural view showing the assembled state of the expansion assembly and the installation cavity of the present invention;

FIG. 13 is a schematic diagram showing the assembled state of the power supply box and the placement component according to the present invention;

FIG. 14 is a schematic view of the assembled state of the overhanging drive assembly and placement assembly of the present invention;

1, a storage case; 11, a second air guide channel; 12, a plug-in unit; 13, window, 14, housing, 15, conduction chamber, 16, electrical plug, 2, power box, 21, interface one, 22, electrical socket, 23, wire, 24, first air guide chamber, 25, housing slot, 26, handle, 27, housing chamber, 28, drive chamber, 3, lead screw, 31, heat sink assembly, 311, mounting case, 312, interface two, 313, heat sink cavity, 314, heat sink fan, 32, closure assembly, 321, baffle, 3211, clamping slot one, 322, sealing plate one, 323, hinged cover, 324, movable shaft, 325, first gear, 33, docking assembly, 331, top plate, 3311, operating port, 3312, guide opening, 3313, mounting chamber, 332, sealing plate two, 333, plug board, 3331, internal air passage, 334, first toothed plate, 335, motor, 336, lead screw, 337, guide block, 4, photovoltaic assembly, 41, mounting cavity, 42, expansion assembly, 421, 422, first photovoltaic plate, 424, 423, second gear, guide plate, 35, seat, 35, second gear, guide plate, 35, seat, guide plate, seat, guide plate, toothed plate, and drive plate, guide plate, and drive plate, etc. 35, and drive plates, with wires, and with wires, respectively, with first, and with first, second, the device comprises a supporting plate, 82 parts for guiding, 821 parts for upper toothed plates, 822 parts for lower toothed plates, 823 parts for sixth gears, 824 parts for rotating a guide rod, 825 parts for connecting, 83 parts for carrying plates, 831 parts for second sliding parts, 832 parts for clamping grooves II, 84 parts for sliding rods, 9 parts for storage batteries, 10 parts for bases, 101 parts for walking wheels, 102 parts for fastening bolts.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

In order to solve the technical problems in the background art, a modularized storage server is provided as follows:

Referring to fig. 1-14, the modular storage server provided by the invention comprises a storage case 1, a power supply case 2 and a heat dissipation mechanism 3, wherein a placing chamber 14 and a conducting chamber 15 are arranged in the storage case 1, a guide component 8 extending into the placing chamber 14 is arranged in the conducting chamber 15, a storage machine body 7 is butt-mounted on the top of the guide component 8, a power supply case 2 is butt-mounted on one side of the storage case 1, a placing chamber 27 and a driving chamber 28 are arranged in the power supply case 2, a placing component 6 is slidably mounted in the placing chamber 27, a storage battery 9 is clamped in the placing component 6, an overhanging driving component 5 is arranged in the driving chamber 28, the overhanging driving component 5 is connected with the placing component 6 in an assembling manner, a containing groove 25 is formed in the top of the power supply case 2, a photovoltaic component 4 is arranged in the containing groove 25, a heat dissipation mechanism 3 is jointly assembled between the storage case 1 and the power supply case 2, one side of the storage case 1 is covered by the heat dissipation mechanism 3, and one side of the storage case 1 dissipates heat through the heat dissipation mechanism 3;

During the period, through the mutual combination of the storage case 1, the power supply case 2 and the heat dissipation mechanism 3, a complete storage server main body is formed, the modular assembly operation of the server is realized, through the mutual cooperation between the overhanging driving component 5 and the placing component 6, after the storage battery 9 is placed by personnel, the personnel can carry out synchronous operation, the personnel can finish the storage battery 9 placing structure through a rotating mode, the storage battery 9 is clamped in the receiving mode, the stability of the storage battery 9 in the placing structure is ensured until the storage battery 9 finishes the electric butt joint, the storage machine body 7 can be borne through the guide component 8, the assembly operation of the storage machine body 7 can be finished, the electric butt joint of the storage machine body 7 can be finished through the rotating mode, and the fixation of the storage machine body 7 is finished through the clamping mode during the butt joint, the stability of the storage machine body 7 during the arrangement period is ensured, through the mutual matching between the photovoltaic module 4 and the heat dissipation mechanism 3, the photovoltaic energy saving of the server can be realized, the use requirement during the outdoor carrying period is met, the energy saving effect of the server is increased, the expansion can be carried out, the surrounding of the server is completed, the photovoltaic effect can be increased, the lap joint is carried out between the server and the heat dissipation mechanism 3 during the operation period, the stability of the photovoltaic module 4 during the operation period is ensured, the heat dissipation mechanism 3 can be switched according to the actual operation of the server, when the server is in operation, the heat dissipation mechanism 3 can enter into the heat dissipation state and be built and assembled with the photovoltaic module 4, when the server is not in operation, the heat dissipation mechanism 3 can exit from the heat dissipation state and the plugging of the heat dissipation area is completed, the server has good protection effect when not operating.

The heat dissipation mechanism 3 comprises a heat dissipation component 31, a sealing component 32 and a butting component 33, wherein the butting component 33 is arranged at the top of the storage case 1 and the top of the power supply case 2 in a butting mode, the sealing component 32 is arranged at the port of the butting component 33, the heat dissipation component 31 is fixedly arranged at the bottom of the butting component 33, and the heat dissipation component 31 covers the outer side face of the storage case 1; the photovoltaic module 4 comprises a mounting cavity 41, an expanding module 42, a second photovoltaic plate 43, a guide plate 44 and a positioning guide rod 46, wherein the top in the storage groove 25 is fixedly provided with the positioning guide rod 46, the guide plate 44 is sleeved on the positioning guide rod 46, a guide opening 441 matched with the positioning guide rod 46 is arranged in the guide plate 44, the side surface of the guide plate 44 is fixedly provided with the mounting cavity 41, the side surface of the mounting cavity 41 is fixedly provided with the second photovoltaic plate 43, and the two groups of expanding modules 42 are slidably arranged in the mounting cavity 41; the overhanging driving assembly 5 comprises a driving part 51, a clamping part 52 and a clamping plate one 53, the placing assembly 6 comprises a placing frame 61 and a supporting plate 64, the placing frame 61 is arranged in the placing chamber 27 in a sliding mode, the supporting plate 64 is fixedly arranged in the placing frame 61, the driving part 51 is arranged in the driving chamber 28 in a butt joint mode, the clamping part 52 extending into the placing chamber 27 is arranged in the driving chamber 28, the clamping plate one 53 is arranged in the butt joint mode at the driving end of the clamping part 52, the driving part 51 and the clamping part 52 are mutually assembled and driven, the guiding assembly 8 comprises a supporting plate 81, a guiding part 82, a carrier plate 83 and a sliding rod 84, the guiding part 82 is arranged in the interior of the guiding chamber 15, the supporting plate 81 extending into the placing chamber 14 is arranged at the top of the guiding part 82, the sliding rod 84 penetrating through the supporting plate 81 is arranged in the butt joint of the placing chamber 14, the carrier plate 83 is arranged at the top of the sliding rod 84 in a sliding mode, the top of the carrier plate 83 is clamped with a storage machine body 7;

The butt joint assembly 33 completes the bearing connection of the heat radiation assembly 31 and the sealing assembly 32, the butt joint assembly 33 completes the mutual connection between the storage machine case 1 and the power supply machine case 2, the storage machine case 1 and the power supply machine case 2 can be guaranteed to enter a convection state, the common heat radiation of the storage machine case 1 and the power supply machine case 2 can be synchronously completed when the follow-up heat radiation is guaranteed, meanwhile, the sealing assembly 32 can complete the construction between the sealing assembly and the guide plate 44, the support of the guide plate 44 is completed, the diagonal bracing operation of the guide plate 44 is guaranteed, then the expansion assembly 42 is guided out from the two sides of the mounting cavity 41 in a progress manner, the turning rotation is carried out, the enclosing is completed, the heat radiation window of the heat radiation assembly 31 can be blocked when the storage machine body 7 is placed, a person can adopt a first clamping and then pushing mode to push the carrier plate 83 when the storage machine body 7 is placed, the front end is enabled to complete the butt joint with the inner plug end, the front end is assembled with the storage machine case 1, and the firmness of the storage machine body 7 during the operation is guaranteed; when the power supply box 2 finishes the installation and assembly of the storage battery 9, a person firstly places the storage battery 9 in the supporting plate 64 of the placement frame 61, drives the clamping component 52 through the driving component 51, two states are generated at the moment, when the driving component 51 rotates positively, the placement frame 61 is driven to extend outwards, the clamping component 52 also synchronously exits from the clamping state to release the positioning of the storage battery 9, and when the power supply box reversely rotates, the storage battery 9 on the placement frame 61 is driven to retract, and the clamping component 52 is driven to finish the clamping and fixing of the storage battery 9 while the storage battery 9 is retracted.

Example two

As shown in fig. 1 and 14, on the basis of the above embodiment, the present embodiment further gives the following:

In this embodiment, the front and back surfaces of the storage chassis 1 are fixedly provided with the second air guide channel 11, the front and back surfaces of the power supply chassis 2 are fixedly provided with the first air guide channel 24, the second air guide channel 11 is mutually inserted and communicated with the first air guide channel 24, the docking assembly 33 comprises a top plate 331 and a plugboard 333, the inside of the second air guide channel 11 and the inside of the first air guide channel 24 are respectively inserted and connected with the plugboard 333, the plugboard 333 is in docking with the air guide channels, the docking between the storage chassis 1 and the power supply chassis 2 is realized, the top of the plugboard 333 is fixedly provided with the top plate 331 together, the plugboard 333 is provided with built-in air passages 3331 which are mutually inserted and communicated with the inside of the storage chassis 1 and the power supply chassis 2, the plugboard 333 is respectively inserted and communicated with the second air guide channel 11 and the first air guide channel 24, air in the first air guide channel 24 is led into the second air guide channel 11 through the built-in air guide channel 3331, and thus the air in the storage chassis 1 and the power supply chassis 2 are led into the power supply chassis 2 through the built-in air guide channels 3331, and when the heat dissipation assembly 31 performs operation, and the air is firstly led into the storage chassis 1 and the power supply chassis 2 through the built-in air guide channels and the built-in air guide channels 1.

In this embodiment, the docking assembly 33 further includes a second plugging plate 332, a first toothed plate 334, a motor 335, a screw 336, and a guide block 337; the closing component 32 comprises a baffle 321, a first plugging plate 322, a hinged cover plate 323, a movable shaft 324 and a first gear 325, wherein an operation port 3311 is arranged on the top plate 331, a second plugging plate 332 is inserted into the operation port 3311, a mounting chamber 3313 is arranged on the back surface of the top plate 331, a guide port 3312 is arranged between the mounting chamber 3313 and the operation port 3311, a motor 335 is fixedly arranged in the mounting chamber 3313, a screw rod 336 is arranged on an output shaft of the motor 335 in a butt joint mode, a guide block 337 is sleeved on the screw rod 336, the motor 335 drives the screw rod 336 to rotate so as to enable the guide block 337 to linearly move, the guide block 337 penetrates through the guide port 3312 and is fixedly connected with the second plugging plate 332, a movable shaft 324 extending into the mounting chamber 3313 is fixedly arranged at the bottom of the screw rod 336, a first gear 334 is arranged at the end portion of the movable shaft 324 in a butt joint mode, a first gear meshed with the first gear 334 is fixedly arranged on the movable shaft 324, a baffle 321 is arranged in the outer port of the top plate 331, one side of the baffle 321 is fixedly arranged on the baffle plate 321, the guide block 322 is fixedly arranged at the side of the baffle plate 321, the motor cover plate 321 penetrates through the guide block 337, and the guide block 337 penetrates through the guide port 3312, and is fixedly connected with the movable shaft 324 fixedly connected with the movable shaft 332, and is driven by the movable shaft 334, and is driven to the movable plate 325 through the movable plate.

In the first state, the blocking plate 321 is used for blocking the radiating window, and the second blocking plate 332 is used for blocking the operation port 3311, so that the butt joint end is prevented from being exposed when the butt joint end is not operated;

in the second state, the blocking plate 321 is unblocked and turned upwards, and then is clamped and fixed with the mounting cavity 41, so that the mounting cavity 41 is built and fixed, and the operation port 3311 is synchronously exposed.

In this embodiment, the heat dissipation assembly 31 includes a mounting shell 311, a second interface 312, a heat dissipation cavity 313 and a heat dissipation fan 314, wherein the mounting shell 311 is fixedly installed on one side of the bottom of the top plate 331, the second interface 312 is arranged on the outer side of the mounting shell 311, the second interface 312 is in butt joint with the first plugging plate 322 for plugging, the heat dissipation cavity 313 is arranged in the mounting shell 311, the heat dissipation fan 314 is assembled in the heat dissipation cavity 313, a ventilation window for heat dissipation is arranged between the second interface 312 and the heat dissipation cavity 313, and after the heat dissipation fan 314 is started, heat in the storage case 1 can be extracted and discharged;

One side of the storage case 1 is provided with a window 13 communicated with the placing chamber 14, the window 13 is communicated with the inside of the heat dissipation cavity 313, heat is firstly guided into the heat dissipation cavity 313 through the window 13, and the heat dissipation fan 314 conducts air conduction and heat dissipation to the inside of the placing chamber 14 through the window 13.

Example III

As shown in fig. 1 to 14, on the basis of the above embodiment, the present embodiment further provides the following:

In this embodiment, the expansion assembly 42 further includes a slat 421, a first photovoltaic plate 422, a connecting block 423, a positioning pin 424, and a shaft 425, where two sets of slats 421 are slidably installed in the installation cavity 41, the slat 421 can only slide in the installation cavity 41, so as to drive the first photovoltaic plate 422 to protrude, the protruding mode is opposite, and thus the expansion assembly can extend to two sides of the installation cavity 41, the shaft 425 is installed to the external sliding surface of the slat 421, the connecting block 423 is movably installed in the shaft 425 through the positioning pin 424, the first photovoltaic plate 422 is fixedly installed in the shaft 425 by the end of the connecting block 423, the first photovoltaic plate 422 is movably turned over in the shaft 425 through the positioning pin 424, the first photovoltaic plate 422 is caused to rotate on the shaft 425 through the shaft 424, so that the angle of the first photovoltaic plate 422 is adjusted, and the first photovoltaic plate 422 is telescopically moved in the installation cavity 41 through the slat 421;

The photovoltaic module 4 further comprises a first clamping block 45, two groups of first clamping blocks 45 are fixedly arranged at the top of the guide plate 44, two groups of first clamping grooves 3211 are formed in the top of the baffle 321, the first clamping blocks 45 are matched with the first clamping grooves 3211 in a mutually clamping mode, when the server is in operation, the baffle 321 is in an upturned state and is clamped with the guide plate 44, the first clamping blocks 45 are matched with the first clamping grooves 3211 in a mutually clamping mode in a clamping mode, and the construction of the first clamping blocks and the second clamping grooves is completed.

In the embodiment, the driving part 51 comprises a fourth gear 511, a third toothed plate 512, a fifth gear 513 and a second transmission shaft 514, the clamping part 52 comprises a second gear 521, a first transmission shaft 522, a second toothed plate 523, a mounting seat 524 and a third gear 525, the second transmission shaft 514 extending into the driving chamber 28 is arranged in a butt joint manner at the top of the power supply box 2, a rotary cap for rotation is arranged at the top of the second transmission shaft 514, during which, a person can drive the second transmission shaft 514 to rotate through the rotary cap, the fourth gear 511 is arranged in a butt joint manner at the bottom of the second transmission shaft 514, the mounting seat 524 is fixedly arranged on the inner wall of the driving chamber 28, the first transmission shaft 522 penetrating through the mounting seat 524 is arranged in an inner butt joint manner at the end of the driving chamber 28, the third gear 525 is arranged in a butt joint manner at the end of the first transmission shaft 522, the second gear 521 is sleeved on the first transmission shaft 522, the second toothed plate 523 is meshed with the second gear 521, the clamping plate 53 is arranged in a butt joint manner at the end of the second toothed plate 523, the second toothed plate 523 is sleeved with the third gear 514 is meshed with the second gear 523, and the second toothed plate 514 is meshed with the third gear 513 is arranged in a fixed manner at the bottom of the fourth gear 513, and the fourth gear is meshed with the fourth gear 512 is meshed with the fourth gear 513 in a fixed manner, and the fourth gear is meshed with the fourth gear 512, and meshed with the fourth gear is meshed with the fourth gear 512;

the fourth gear 511 drives the placement frame 61 through the third toothed plate 512, causing the placement frame 61 to perform telescopic movement;

the fifth gear 513 drives the first transmission shaft 522 to rotate through the third gear 525, so that the second toothed plate 523 is driven to move by the second gear 521 of the other group on the first transmission shaft 522;

The two operation processes are synchronous, so that the storage battery 9 is received, the storage battery 9 is clamped or pushed out during the receiving, and the clamping of the storage battery 9 is released during the pushing out.

In this embodiment, the top and bottom of the placement frame 61 are both provided with the first sliding member 611, the first sliding member 611 is slidably connected with the power supply box 2, the inner side of the placement frame 61 is fixedly provided with the spring 63, the end parts of the spring 63 are butt-jointed together to install the second clamping plate 62, and the second clamping plate 62 is in sliding limiting connection with the supporting plate 64.

By the above, when the storage battery 9 receives two forces, in order to avoid interference, a buffer space is provided for the storage battery 9, and the buffer force is completed through the cooperation of the spring 63 and the clamping plate two 62, so that the storage battery 9 can still perform recovery movement when receiving thrust.

In this embodiment, the guiding component 82 includes an upper toothed plate 821, a lower toothed plate 822, a sixth gear 823, a rotary guide rod 824, and a connecting seat 825, the front surface of the storage chassis 1 is butt-jointed with the rotary guide rod 824 extending into the conducting chamber 15, the sixth gear 823 is sleeved on the rotary guide rod 824, the lower toothed plate 822 meshed with the sixth gear 823 is slidably mounted at the bottom of the conducting chamber 15, the connecting seat 825 extending into the conducting chamber 15 is fixedly mounted at the bottom of the carrier 83, the upper toothed plate 821 meshed with the sixth gear 823 is fixedly mounted at the bottom of the connecting seat 825, and the rotary guide rod 824 drives the upper toothed plate 821 and the lower toothed plate 822 to move reversely, so that the upper toothed plate 821 and the lower toothed plate 822 achieve respective operation effects;

The upper toothed plate 821 drives the supporting plate 81 to move through the connecting seat 825 to promote the clamped storage machine body 7 to complete electric plug-in connection;

The lower toothed plate 822 is conducted in the opposite direction and inserted into the inner wall of the conducting chamber 15 to form a butt joint with the plug interface of the inner wall of the conducting chamber 15, so as to complete the clamping and fixing of the operation state and prevent loosening during operation.

In this embodiment, the top of the carrier plate 83 is provided with the second clamping groove 832, the bottom fixed mounting of the storage machine body 7 has the second clamping block 71, and the second clamping block 71 and the second clamping groove 832 are mutually clamped fixedly, guarantee personnel to place the storage machine body 7 in real time, the mode of clamping is convenient for personnel to carry out no instrument installation connection, through second slider 831 sliding connection between carrier plate 83 and the backup pad 81, install branch plug 72 in butt joint with one side of the storage machine body 7 respectively, data plug 73, thereby accomplish the required grafting demand of storage machine body 7, guarantee that storage machine body 7 can carry out electric connection with battery 9, can carry out matcing connection with plug unit 12 again, the inboard fixed mounting of storage machine case 1 has plug 16, the plug unit 12 is installed to the top of storage machine case 1 through branch plug 72 and plug 16 electric connection, the plug end and data plug 73 electric connection of plug 12, the inboard of power machine case 2 is provided with interface one 21, the inside fixed mounting of interface one 21 has plug 22, and plug 22 carries out wire connection with battery 9 through the wire and wire end 23 and the handle 2 of power supply machine case 2, install the handle 2 in the case 2 and the handle 2 is then carried out the handle 2 after the two is installed to the handle 2, the handle 2 is installed to the end of the inside of the machine case 1, and the handle 2 is installed to the handle 2, the handle is installed to the handle, and the handle is installed to the handle is more convenient to the case 2, and the inside the machine case is installed.

During the period, the storage case 1 and the power supply case 2 are in butt joint through the base 10 at the bottom, the fixing of the base 10 is finished through two groups of fastening bolts 102, the walking wheels 101 are fixedly arranged at the bottom of the base 10, the combined butt joint of the server is finished, and after the assembly, the mobile storage case is assisted by the walking wheels 101.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

The foregoing embodiments are merely for illustrating the technical solution of the present invention, but not for limiting the same, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that modifications may be made to the technical solution described in the foregoing embodiments or equivalents may be substituted for parts of the technical features thereof, and that such modifications or substitutions do not depart from the spirit and scope of the technical solution of the embodiments of the present invention in essence.

Claims (10)

1. A modular storage server, characterized in that it includes a storage chassis and a heat dissipation mechanism, a power supply chassis dockedly mounted on one side of the storage chassis, a storage body disposed within the storage chassis, the storage body mounted on top of a guide assembly mounted within the storage chassis for driving the storage body in and out of the storage chassis, a battery disposed within the power supply chassis for powering the storage body, the battery disposed within a placement assembly slidably mounted within the power supply chassis, an outward drive assembly further mounted within the power supply chassis, the outward drive assembly being assembled and connected to the placement assembly for clamping and/or driving the battery in and out of the power supply chassis; A storage groove is provided on the top of the power supply chassis, and a photovoltaic component is installed inside the storage groove; the photovoltaic component includes an installation cavity, a second photovoltaic panel, a guide plate, and a positioning guide rod. The top of the storage groove is fixedly installed with a positioning guide rod, and the positioning guide rod is mounted with a guide plate. The side of the guide plate is fixedly installed with a installation cavity, and the side of the installation cavity is fixedly installed with a second photovoltaic panel; the bottom of the storage chassis and the power supply chassis are both fixedly installed with a base, and two sets of fastening bolts are installed between the bases. 2. A modular storage server according to claim 1, characterized in that it also includes a heat dissipation mechanism; the heat dissipation mechanism includes a heat dissipation component, a closing component, and a docking component, the storage chassis and the power supply chassis are docked together on the top and installed with a docking component, the port of the docking component is equipped with a closing component, the bottom of the docking component is fixedly installed with a heat dissipation component, and the heat dissipation component covers the outer side of the storage chassis. 3. A modular storage server according to claim 2, characterized in that: a first air guide channel is fixedly installed on the front and back sides of the power supply chassis, and a second air guide channel is fixedly installed on the front and back sides of the storage chassis, and the second air guide channel and the first air guide channel are plugged and connected to each other; the docking assembly includes a top plate and an insert plate, and the second air guide channel and the interior of the first air guide channel are respectively plugged with insert plates, and the top of all the insert plates is fixedly installed on the top of each other, and a built-in air channel connected to the interior of the storage chassis and the power supply chassis is provided in the insert plate, and when the insert plate is synchronously plugged and connected with the second air guide channel and the first air guide channel, the air in the first air guide channel is introduced into the second air guide channel through the built-in air channel, and the storage chassis and the power supply chassis enter a communication state. 4. The modular storage server according to claim 3, characterized in that the docking assembly further includes a second blocking plate, a first gear plate, a motor, a screw rod, and a guide block; the closing assembly includes a baffle, a first blocking plate, a hinged cover plate, a movable shaft, and a first gear; an operating port is provided on the top plate, the blocking plate second is inserted in the operating port, an installation chamber is provided on the back of the top plate, and a guide port is provided between the installation chamber and the operation port, a motor is installed in the installation chamber, the output shaft of the motor is docked with a screw rod, a guide block is sleeved on the screw rod, the guide block passes through the guide port and is fixedly connected to the second blocking plate, the bottom of the screw rod is fixedly installed with the first gear plate, the outer port of the top plate is docked with a movable shaft extending into the installation chamber, the end of the movable shaft is docked with the first gear meshing with the first gear plate, the baffle is fixedly installed on the movable shaft, the baffle is located in the outer port of the top plate, and a blocking plate is fixedly installed on one side of the baffle, and the hinged cover plate is docked at the port of the installation chamber, the motor drives the first gear plate through the screw rod, and the first gear plate drives the baffle to flip by driving the first gear. 5. A modular storage server according to claim 2, characterized in that: the heat dissipation component includes a mounting shell, a second docking port, a heat dissipation cavity, and a heat dissipation fan; a mounting shell is mounted on one side of the bottom of the top plate, a second docking port is provided on the outside of the mounting shell, a heat dissipation cavity is provided inside the mounting shell, a heat dissipation cavity is equipped with a heat dissipation fan inside the heat dissipation cavity, and an air guide window for heat dissipation is provided between the second docking port and the heat dissipation cavity; a window communicating with the inner cavity of the storage chassis is provided on one side of the storage chassis, and the window is communicated with the heat dissipation cavity. 6. A modular storage server according to claim 1, characterized in that: the photovoltaic component also includes an expansion component, two groups of expansion components are slidably installed in the installation cavity, the expansion component includes strips, a first photovoltaic panel, a connecting block, a positioning pin, and an axle, two groups of strips are slidably installed in the installation cavity, the outer sliding surface of the strips is connected to the axle, the interior of the axle is movably installed with a connecting block through a positioning pin, the end of the connecting block is fixedly installed with the first photovoltaic panel, the first photovoltaic panel moves in the axle through the positioning pin, the first photovoltaic panel rotates on the strips through the axle, and the first photovoltaic panel telescopically moves in the installation cavity through the strips. 7. A modular storage server according to claim 1, characterized in that: the placement component includes a placement rack and a support plate; the placement rack is slidably installed in the power supply chassis, and the support plate is fixedly installed therein; the outward driving assembly includes a driving component, a clamping component, and a clamping plate; the driving component includes a fourth gear, a third gear plate, a fifth gear, and a second transmission shaft; the clamping component includes a second gear, a first transmission shaft, a second gear plate, a mounting seat, and a third gear; the second transmission shaft is installed on the top of the power supply chassis, and the fourth gear is installed at the bottom of the second transmission shaft, the mounting seat is fixedly installed in the power supply chassis, the first transmission shaft passing through the mounting seat is docked and installed in the power supply chassis, the end of the first transmission shaft is docked and installed with the third gear, the first transmission shaft is sleeved with the second gear, the second gear plate is docked and installed in the power supply chassis, and the second gear plate and the second gear are meshed with each other, the end of the second gear plate is docked and installed with the clamping plate, the second transmission shaft is sleeved with the fifth gear that is meshed with the third gear, the third gear plate is fixedly installed on the bottom of one side of the placement rack, and the fourth gear that is meshed with the third gear plate is fixedly installed on the bottom of the second transmission shaft 8. A modular storage server according to claim 7, characterized in that: a first sliding member is provided on the top and bottom of the placement rack, and the first sliding member is slidably connected to the power supply chassis, a spring is fixedly installed on the inner side of the placement rack, and a second splint is installed at the ends of the spring, and the second splint is connected to the support plate by a sliding limiter. 9. A modular storage server according to claim 7, characterized in that: the guiding component includes a support plate, a guiding component, a carrier plate, and a sliding rod; the guiding component is assembled in the storage chassis, the support plate is installed on the top of the guiding component, a sliding rod penetrating the support plate is docked and installed in the storage chassis, the carrier plate is slidably installed on the top of the sliding rod, and the storage body is clamped on the top of the carrier plate; the guiding component includes an upper tooth plate, a lower tooth plate, a sixth gear, a rotating guide rod, and a connecting seat, the front of the storage chassis is docked and installed with a rotating guide rod, the rotating guide rod is fitted with a sixth gear, a lower tooth plate meshing with the sixth gear is slidably installed in the storage chassis, the bottom of the carrier plate is fixedly installed with a connecting seat, and the bottom of the connecting seat is fixedly installed with an upper tooth plate meshing with the sixth gear. 10. A modular storage server according to claim 9, characterized in that: a second card slot is provided on the top of the carrier plate, a second card block is fixedly installed on the bottom of the storage body, and the second card block and the second card slot are fixed to each other, the carrier plate and the support plate are slidably connected by a second sliding member, a support plug and a data plug are respectively docked and installed on one side of the storage body, a power plug is fixedly installed on the inner side of the storage chassis, the storage body is electrically connected to the power plug through the support plug, a plug-in unit is fixedly installed on the top of the storage chassis, the plug-in end of the plug-in unit is electrically connected to the data plug, a docking interface is provided on the inner side of the power supply chassis, a power connection slot is fixedly installed inside the docking interface, and the power connection slot is electrically connected to the battery through a wire belt, and handles are fixedly installed on the top of both the storage chassis and the power supply chassis.