CN113660813A

CN113660813A - Computer system integrated control cabinet

Info

Publication number: CN113660813A
Application number: CN202111220590.5A
Authority: CN
Inventors: 周磊; 成小烽; 刘文中; 黄美芳; 李响; 张明明; 宋立瑶; 孙小淼
Original assignee: Jiangsu Zelu Information Technology Co ltd
Current assignee: Jiangsu Zelu Technology Group Co.,Ltd.
Priority date: 2021-10-20
Filing date: 2021-10-20
Publication date: 2021-11-16
Anticipated expiration: 2041-10-20
Also published as: CN113660813B

Abstract

The invention discloses a computer system integrated control cabinet, which comprises a cabinet body and two symmetrically arranged cabinet doors, wherein two partition plates are vertically and symmetrically arranged in the cabinet body, a plurality of base barrels are symmetrically arranged on the inner wall of the cabinet body, a telescopic rod is slidably inserted into one end, away from the inner wall of the cabinet body, of each base barrel, a self-locking block is fixedly sleeved at one end, away from the base barrel, of each telescopic rod, two cabinet doors are rotatably connected with the self-locking blocks respectively, a reset cavity and a self-locking cavity are arranged in each base barrel, and a reset sliding block is slidably arranged in each reset cavity. Through the cabinet door rotatory with from the cooperation between the locking piece, the auto-lock and the unblock of a control base section of thick bamboo and telescopic link realize that the cabinet door is opened the back and is hidden the cabinet body automatically, and close automatically when the cabinet door is closed, energy consumption and increase manual operation when reducing electric drive make the convenience.

Description

Computer system integrated control cabinet

Technical Field

The invention relates to the field of control system equipment, in particular to an integrated control cabinet of a computer system.

Background

Present integrated control cabinet is in order to increase the convenience of operating personnel switch door, adopt the mode of electric drive switch door, when the electric drive became invalid, still can open the door through machinery, but this kind of scheme is the page formula that opens and shuts at present, the cabinet door is opening the back promptly, can occupy the passageway space, and block the operation maintainer of walking about back and forth, and whole switch door in-process, all need electric drive or manual mechanical operation, it is great to make the power drive time energy consumption, and during manual operation, the operation is comparatively troublesome, can not accomplish semi-electronic or semi-manual operation in order to reduce power loss and promote the simple operation nature.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, the open-close type cabinet occupies more aisle space, and the pure electric or pure manual type cabinet has higher energy consumption and poorer operation convenience, and provides a computer system integrated control cabinet.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a computer system integrated control cabinet, includes the cabinet body and two cabinet doors that the symmetry set up, two baffles are installed to the internal perpendicular symmetry of cabinet, equal symmetry is installed a plurality of base section of thick bamboos, every on the inner wall of the cabinet body the one end that the internal wall of cabinet was kept away from to a base section of thick bamboo all slides and is inserted and be equipped with the telescopic link, every the telescopic link is kept away from the one end of a base section of thick bamboo and is all fixed the cover and be equipped with from the locking piece, two the cabinet door rotates with a plurality of self-locking pieces respectively and is connected, every all be equipped with chamber and auto-lock chamber in the base section of thick bamboo, every the equal slidable mounting in the chamber that resets has the slider that resets, every reset spring who fixes on the internal wall of base section of thick bamboo is all installed to one side that the self-lock chamber was kept away from to the slider that resets, every the telescopic link all passes corresponding auto-lock chamber extend to the intracavity and with slider fixed connection that resets.

Furthermore, every hydraulic pressure chamber has all been seted up in the telescopic link, every hydraulic pressure chamber has all been seted up hydraulic pressure hole on being close to the inner wall of a base section of thick bamboo, every all symmetrical sealed restriction slip on the pore wall in hydraulic pressure hole is inserted and is equipped with a plurality of pressures from the spring bolt, every pressure is kept away from the one end in hydraulic pressure hole from the spring bolt and all aligns with the outer wall of telescopic link, every pressure is equalling in the chamber that resets to the distance in chamber from the spring bolt to the slider that resets.

Furthermore, every the unlocking groove has all been seted up to the one end that the auto-lock piece is close to the telescopic link, every the equal slidable mounting of unlocking inslot has the unlocking post, every the equal sealed slidable mounting in one side that is close to the auto-lock piece in the hydraulic pressure chamber has a hydraulic stem, every the equal fixed mounting in one end that the hydraulic stem is close to the auto-lock piece has a gangbar, every all the cover is equipped with the pressure spring who fixes respectively on hydraulic stem and hydraulic pressure intracavity wall on the gangbar, every the one end that the gangbar is close to the auto-lock piece all extends to the unlocking inslot and with unlocking post fixed connection.

Further, every the unblock mouth that the intercommunication corresponds the unblock groove is all seted up on the lateral wall of self-locking piece, every equal symmetric slip inserts on the lateral wall of self-locking piece and is equipped with two unblock bars, two the one end that the self-locking piece was kept away from to the unblock bar is installed the unblock board jointly, every all the cover is equipped with the unblock spring of fixing respectively on unblock board and self-locking piece outer wall on the unblock bar, every curved surface ejector pad is all installed to one side that the unblock board is close to the self-locking piece, every curved surface push slot has all been seted up on the lateral wall of unblock post, every the one end that the unblock board was kept away from to the curved surface ejector pad all passes the unblock mouth and inserts and establish in the curved surface push slot.

Further, every a plurality of sliding openings have been seted up to equal symmetry on the lateral wall of baffle, every equal slidable mounting has the low resistance slider in the sliding opening, every the lateral wall of low resistance slider all with the auto-lock piece fixed connection that corresponds, every the auto-lock piece all is located one side that two baffles kept away from each other, every the rotary slot has all been seted up on the auto-lock piece, every a plurality of turning blocks, every are installed to equal symmetry on the inner wall of cabinet door all fixed the inserting is equipped with the pivot on the turning block, every the pivot is all rotated and is installed in the rotary slot that corresponds, the projection distance of pivot axis to cabinet door is less than the projection distance of pivot axis to unlocking plate.

Further, every one side that the baffle is close to internal wall of cabinet all installs electronic driving mechanism, every electronic driving mechanism all includes that the symmetry fixes two parallel racks on the baffle lateral wall, two of homonymy equal common slidable mounting has gear drive machine, every on the parallel rack equal symmetric mounting has the drive shaft, every on the gear drive machine the drive shaft all with the pivot fixed connection who corresponds the side, every equal symmetric fixed mounting has a plurality of dead levers, a plurality of on the lateral wall of gear drive machine the dead lever is kept away from the one end of gear drive machine and is all fixed on the auto-lock piece that corresponds the side, every the one end that the baffle is close to the cabinet door all inlays and is equipped with a plurality of magnetic sheets.

Has the advantages that: through the cabinet door rotatory with from the cooperation between the locking piece, the auto-lock and the unblock of a control base section of thick bamboo and telescopic link realize that the cabinet door is opened the back and is hidden the cabinet body automatically, and close automatically when the cabinet door is closed, energy consumption and increase manual operation when reducing electric drive make the convenience.

Drawings

FIG. 1 is a schematic structural diagram of an integrated control cabinet of a computer system according to the present invention;

fig. 2 is a schematic diagram of a cut-away portion of a side wall of a computer system integrated control cabinet according to the present invention;

FIG. 3 is an enlarged view of a partition board of the integrated control cabinet of computer system according to the present invention;

FIG. 4 is a schematic diagram of a base cylinder of an integrated control cabinet of a computer system according to the present invention;

FIG. 5 is a schematic view of a computer system integrated control cabinet according to the present invention, in which the retractable rod and the self-locking block are partially cut away;

FIG. 6 is an enlarged view taken at A in FIG. 3;

fig. 7 is an enlarged view of fig. 4 at B.

In the figure: 1 cabinet body, 2 cabinet doors, 21 rotating blocks, 22 rotating shafts, 3 partition boards, 31 sliding ports, 32 low-resistance sliding blocks, 33 magnetic plates, 4 base barrels, 41 reset cavities, 42 self-locking cavities, 43 reset springs, 44 reset sliding blocks, 5 telescopic rods, 51 hydraulic cavities, 52 hydraulic holes, 53 pressure self-locking bolts, 54 pressure springs, 55 hydraulic columns, 56 linkage rods, 6 self-locking blocks, 61 unlocking grooves, 62 unlocking ports, 63 unlocking columns, 64 curved surface pushing grooves, 65 rotating grooves, 7 electric driving mechanisms, 71 parallel tooth tracks, 72 gear driving machines, 73 fixed rods, 74 driving shafts, 8 unlocking rods, 81 unlocking plates, 82 unlocking springs and 83 curved surface pushing blocks.

Detailed Description

Referring to fig. 1-4, a computer system integrated control cabinet comprises a cabinet body 1 and two symmetrically arranged cabinet doors 2, wherein two partition plates 3 are vertically and symmetrically arranged in the cabinet body 1, a plurality of base barrels 4 are symmetrically arranged on the inner wall of the cabinet body 1, an expansion link 5 is slidably inserted into one end of each base barrel 4, which is far away from the inner wall of the cabinet body 1, a self-locking block 6 is fixedly sleeved at one end of each expansion link 5, which is far away from the base barrel 4, two cabinet doors 2 are rotatably connected with the self-locking blocks 6 respectively, a reset cavity 41 and a self-locking cavity 42 are arranged in each base barrel 4, a reset slider 44 is slidably arranged in each reset cavity 41, a reset spring 43 fixed on the inner wall of each base barrel 4 is arranged on one side of each reset slider 44, which is far away from the self-locking cavity 42, and each expansion link 5 passes through the corresponding self-locking cavity 42, extends into the reset cavity 41 and is fixedly connected with the reset slider 44;

from the flexible state of the rotatory extrusion control base section of thick bamboo 4 and telescopic link 5 of locking piece 6 through cabinet door 2, realize that cabinet door 2 opens and shuts the back completely and draw back the cabinet body 1 internal area that lies in between 1 inner wall of cabinet body and baffle 3 for cabinet door 2 does not block the passageway space, and need not manual push, and it is more convenient to operate.

Referring to fig. 4 and 7, each telescopic rod 5 is internally provided with a hydraulic cavity 51, the inner wall of each hydraulic cavity 51, which is close to the base barrel 4, is provided with a hydraulic hole 52, the hole wall of each hydraulic hole 52 is symmetrically sealed, limited, slidably inserted with a plurality of pressure self-locking tongues 53, one end of each pressure self-locking tongue 53, which is far away from the hydraulic hole 52, is aligned with the outer wall of the telescopic rod 5, and the distance between each pressure self-locking tongue 53 and the reset slider 44 is equal to the distance between the reset cavity 41 and the self-locking cavity 42;

when the pressure in the hydraulic cavity 51 is higher, the pressure in the hydraulic hole 52 is higher than the external air pressure, so that the multiple pressures extend out of the hydraulic hole 52 to the outer side of the telescopic rod 5 from one end, away from the axis of the hydraulic hole 52, of the lock tongue 53 under the action of the pressure, the multiple pressures are inserted into the self-locking cavity 42 from the lock tongue 53, the telescopic rod 5 is locked by the self-locking cavity 42 and the pressure self-locking tongue 53 and cannot slide in the base barrel 4, and a self-locking function is realized, namely, when the cabinet door 2 is completely drawn out from the cabinet body 1 and closed, the base barrel 4 and the telescopic rod 5 are automatically locked, the cabinet door 2 is prevented from being opened mistakenly, and the reliability of closing the door can be improved;

when hydraulic pressure chamber 51 internal pressure is less, pressure in the hydraulic pressure hole 52 is less than outside air pressure, make to go into telescopic link 5 from the one end retraction that spring bolt 53 kept away from hydraulic pressure hole 52 axis for a plurality of pressure, make to return the unblock from self-locking chamber 42 from a plurality of pressure, realize the unblock of a base section of thick bamboo 4 and telescopic link 5, then can make reset spring 43 reset slider 44 through the pulling, make telescopic link 5 remove to restoring to the throne the intracavity 41, make telescopic link 5 drive from locking piece 6 and remove to a base section of thick bamboo 4, can pull in cabinet door 2 in cabinet body 1 promptly, realize that cabinet door 2 hides in cabinet body 1 after opening completely, reduce cabinet door 2 and to the occupation and the block of passageway space.

Referring to fig. 5 and 6, an unlocking groove 61 is formed in one end, close to the telescopic rod 5, of each self-locking block 6, an unlocking column 63 is installed in each unlocking groove 61 in a sliding mode, a hydraulic column 55 is installed in one side, close to the self-locking block 6, of each hydraulic chamber 51 in a sealing and sliding mode, a linkage rod 56 is fixedly installed at one end, close to the self-locking block 6, of each hydraulic column 55, each linkage rod 56 is sleeved with a pressure spring 54 which is fixed to the hydraulic column 55 and the inner wall of the hydraulic chamber 51 respectively, and one end, close to the self-locking block 6, of each linkage rod 56 extends into the unlocking groove 61 and is fixedly connected with the unlocking column 63;

when the unlocking column 63 slides away from the telescopic rod 5, the unlocking column 63 drives the hydraulic column 55 to move towards the self-locking block 6 through the linkage rod 56 and compress the pressure spring 54, so that the pressure in the area between the hydraulic hole 52 and the hydraulic column 55 in the hydraulic cavity 51 is reduced, and a plurality of pressures are released from the lock tongue 53 and are compressed into the telescopic rod 5 to realize unlocking;

when the pressure spring 54 rebounds, the hydraulic column 55 and the linkage rod 56 drive the unlocking column 63 to slide and reset, so that the hydraulic column 55 slides away from the self-locking block 6, the pressure in the area between the hydraulic hole 52 and the hydraulic column 55 in the hydraulic cavity 51 is recovered, and a plurality of pressures are pushed to stretch out of the telescopic rod 5 from the lock tongue 53 to the self-locking cavity 42 to realize self-locking.

Referring to fig. 5 and 6, an unlocking hole 62 communicated with the corresponding unlocking groove 61 is formed in the side wall of each self-locking block 6, two unlocking rods 8 are symmetrically inserted in the side wall of each self-locking block 6 in a sliding manner, an unlocking plate 81 is jointly installed at one end, away from the self-locking block 6, of each unlocking rod 8, an unlocking spring 82 fixed on the outer wall of each unlocking plate 81 and the outer wall of each self-locking block 6 is sleeved on each unlocking rod 8, a curved pushing block 83 is installed at one side, close to the self-locking block 6, of each unlocking plate 81, a curved pushing groove 64 is formed in the outer side wall of each unlocking column 63, and one end, away from the unlocking plate 81, of each curved pushing block 83 penetrates through the unlocking hole 62 and is inserted into the curved pushing groove 64;

when the unlocking plate 81 is pressed, the unlocking rod 8 is pushed to retract into the self-locking block 6, so that the curved surface pushing block 83 moves towards the unlocking port 62, the curved surface pushing block 83 moves towards the curved surface pushing groove 64, and the unlocking column 63 slides away from the telescopic rod 5 through the curved surface interaction force of the curved surface pushing block 83 and the curved surface pushing groove 64 to unlock the base barrel 4 and the telescopic rod 5;

when the pressure of the unlocking plate 81 is released, the unlocking plate 81 is far away from the unlocking port 62 and moves under the action of the unlocking spring 82, so that the unlocking plate 81 drives the curved surface pushing block 83 to far dissociate the unlocking port 62 and move, the curved surface pushing block 83 slides out of the curved surface pushing groove 64, the curved surface pushing groove 64 loses the thrust, the unlocking column 63 slides towards the telescopic rod 5 under the action of the linkage rod 56, the hydraulic column 55 and the pressure spring 54, and the base barrel 4 and the telescopic rod 5 are locked.

Referring to fig. 2, 3 and 6, a plurality of sliding openings 31 are symmetrically formed in the side wall of each partition plate 3, a low-resistance slider 32 is slidably mounted in each sliding opening 31, the side wall of each low-resistance slider 32 is fixedly connected with a corresponding self-locking block 6, each self-locking block 6 is located on one side, away from each other, of each partition plate 3, a rotating groove 65 is formed in each self-locking block 6, a plurality of rotating blocks 21 are symmetrically mounted on the inner wall of each cabinet door 2, a rotating shaft 22 is fixedly inserted in each rotating block 21, each rotating shaft 22 is rotatably mounted in the corresponding rotating groove 65, and the projection distance from the axis of each rotating shaft 22 to the cabinet door 2 is smaller than the projection distance from the axis of each rotating shaft 22 to an unlocking plate 81;

when the self-locking block 6 moves, make the low resistance slider 32 slide horizontally in the sliding opening 31, then can restrict the linear sliding of self-locking block 6, increase the self-bearing capacity of self-locking block 6, avoid making base section of thick bamboo 4 and telescopic link 5 crooked under the action of gravity of cabinet door 2, cabinet door 2 is when opening, rotate in the turn trough 65 through turning block 21 and pivot 22, make cabinet door 2 rotate the back, the one end lateral wall of cabinet door 2 extrudes unlocking plate 81 after revolving shaft 22 rotates, realize the unblock, cabinet door 2 closes the door in-process, unlocking plate 81 is kept away from to the one end lateral wall of cabinet door 2, realize the locking, when cabinet door 2 is opened completely, complete unlocking, cabinet door 2 is drawn into cabinet body 1 by telescopic link 5 and self-locking block 6, when cabinet door 2 is pulled out completely to close, base section of thick bamboo 4 and telescopic link 5 lock, cabinet door 2 does not receive the pulling force, be convenient for the door closing operation.

Referring to fig. 2, 3 and 6, each partition plate 3 is provided with an electric driving mechanism 7 on one side close to the inner wall of the cabinet body 1, each electric driving mechanism 7 comprises two parallel racks 71 symmetrically fixed on the side wall of the partition plate 3, two parallel racks 71 on the same side are provided with gear driving machines 72 in a sliding manner, each gear driving machine 72 is provided with a driving shaft 74 symmetrically, each driving shaft 74 is fixedly connected with the rotating shaft 22 on the corresponding side, the side wall of each gear driving machine 72 is provided with a plurality of fixing rods 73 symmetrically and fixedly, one ends of the fixing rods 73 far away from the gear driving machines 72 are fixed on the self-locking blocks 6 on the corresponding side, and one end of each partition plate 3 close to the cabinet door 2 is embedded with a plurality of magnetic plates 33;

the electric driving mechanism 7 controls the driving shaft 74 to rotate through the gear driving machine 72, then the driving shaft 74 rotates to rotate the rotating shaft 22, so that the rotating block 21 drives the cabinet door 2 to rotate, and the cabinet door 2 is electrically opened and closed, when the cabinet door 2 is electrically and completely opened, the cabinet door is automatically hidden in the cabinet body 1 under the matching of the base cylinder 4, the telescopic rod 5 and the self-locking block 6, so that the gear driving machine 72 slides on the parallel rack rails 71, the self-locking block 6 is not required to be pulled by the gear driving machine 72 to store the cabinet door 2, and the energy consumption of the electric driving mechanism 7 is reduced;

when the door is closed, the gear driver 72 actively slides on the parallel rack 71 and pulls the self-locking block 6 away from the base cylinder 4 by the fixing rod 73, when the gear drive 72 is completely reset, the rotating shaft 22 is rotated by the driving shaft 74, the cabinet door 2 is closed by the rotating block 21, when the gear drive 72 is not powered, when power is off, the cabinet door 2 is pulled out of the cabinet body 1 by manual pulling, the cabinet door 2 is rotated to be closed, the base barrel 4 and the telescopic rod 5 are locked at the moment, the cabinet door 2 is not pulled, the cabinet door 2 rotates towards the clapboard 3 under the action of a plurality of magnetic plates 33, so that the cabinet door 2 can be automatically closed when power is off, and when having a power failure, when manual rotation cabinet door 2 was opened completely, realized a base section of thick bamboo 4 and telescopic link 5's unblock, a base section of thick bamboo 4 still can stimulate telescopic link 5 and make from locking piece 6 drive cabinet door 2 hide into cabinet 1 internal, simple operation and more reliable.

When the door is opened by electric drive, the gear drive 72 rotates the drive shaft 74, so that the drive shaft 74 drives the rotating shaft 22 to rotate, the rotating block 21 rotates in the rotating groove 65, the cabinet door 2 is opened by rotation, when the cabinet door 2 is completely opened, the cabinet door 2 presses the unlocking plate 81 through the side wall close to the self-locking block 6, so that the unlocking plate 81 pushes the curved surface push block 83 to move towards the unlocking port 62 and compress the unlocking spring 82, the curved surface push block 83 is inserted into the curved surface push groove 64, so that the curved surface push block 83 pushes the unlocking column 63 to slide away from the telescopic rod 5 under the action of the curved surface push groove 64, the linkage rod 56 pulls the hydraulic column 55 to move towards the self-locking block 6, so that the area pressure between the hydraulic hole 52 and the hydraulic column 55 in the hydraulic cavity 51 is reduced, a plurality of pressure is decompressed from the locking tongue 53 to be retracted into the telescopic rod 5 from the self-locking cavity 42, the unlocking of the base barrel 4 and the telescopic rod 5 is realized, and the reset spring 43 pulls the reset slider 44, make the telescopic link 5 remove to the chamber 41 that resets, make telescopic link 5 drive from locking piece 6 to a base section of thick bamboo 4 removal, can pull into the cabinet body 1 with the cabinet door 2 of opening completely promptly, realize that cabinet door 2 hides the cabinet body 1 after opening completely automatically in, reduce cabinet door 2 and to the occupy and block of passageway space, and need not to drive 7 drive from locking piece 6 removals of electricity driving mechanism, reduce the energy consumption.

When the door is closed by electric drive, the gear drive 72 slides on the parallel rack 71, the self-locking block 6 is driven by the fixed rod 73 to move towards the outer side of the cabinet body 1, so that the self-locking block 6 pushes the cabinet door 2 to move towards the outside of the cabinet body 1, when the self-locking block 6 is completely reset, the gear driving machine 72 provides an initial rotating force to the rotating shaft 22 through the driving shaft 74, the cabinet door 2 is rotated and the unlocking plate 81 is released, so that the curved surface pushing block 83 slides out from the curved surface pushing groove 64, the unlocking post 63 is reset and slid by the pressure spring 54, the hydraulic post 55 and the linkage rod 56, the pressure in the area between the hydraulic hole 52 and the hydraulic column 55 in the hydraulic chamber 51 is recovered, and a plurality of pressures are pushed to extend out of the telescopic rod 5 from the locking tongue 53 to the self-locking chamber 42, so that the self-locking of the base barrel 4 and the telescopic rod 5 is realized, the cabinet door 2 is not pulled by the self-locking block 6, and the rotating cabinet door 2 is gradually close to the partition plate 3 and is completely closed under the action of the magnetic plate 33.

When the manual door that opens that has a power failure, manual rotation cabinet door 2, make cabinet door 2 extrude unlocking plate 81 unblock base section of thick bamboo 4 and telescopic link 5 when opening completely, make telescopic link 5 get into the cabinet body 1 through 6 pulling cabinet doors 2 of auto-lock piece in, when the manual door that closes that has a power failure, manual pull out cabinet door 2, make cabinet door 2 be pulled out the cabinet body 1 back completely, rotate cabinet door 2, make cabinet door 2 release unlocking plate 81 lock base section of thick bamboo 4 and telescopic link 5, then cabinet door 2 does not receive the tension influence this moment, then cabinet door 2 is close to baffle 3 and complete closure gradually under the attraction of magnetic sheet 33, and the operation is simple.

Claims

1. A computer system integrated control cabinet comprises a cabinet body (1) and two cabinet doors (2) which are symmetrically arranged, and is characterized in that two partition plates (3) are symmetrically and vertically arranged in the cabinet body (1), a plurality of base barrels (4) are symmetrically arranged on the inner wall of the cabinet body (1), one end, far away from the inner wall of the cabinet body (1), of each base barrel (4) is provided with a telescopic rod (5) in an all-sliding manner, one end, far away from the base barrel (4), of each telescopic rod (5) is fixedly sleeved with a self-locking block (6), the two cabinet doors (2) are respectively rotatably connected with the self-locking blocks (6), a reset cavity (41) and a self-locking cavity (42) are arranged in each base barrel (4), a reset sliding block (44) is arranged in each reset cavity (41) in an all-sliding manner, one side, far away from the self-locking cavity (42), of each reset sliding block (44) is provided with a reset spring (43) fixed on the inner wall of each base barrel (4), each telescopic rod (5) penetrates through the corresponding self-locking cavity (42) to extend into the reset cavity (41) and is fixedly connected with the reset sliding block (44).

2. The computer system integrated control cabinet according to claim 1, wherein each of the telescopic rods (5) is provided with a hydraulic chamber (51), each of the hydraulic chambers (51) is provided with a hydraulic hole (52) on the inner wall close to the base barrel (4), the wall of each of the hydraulic holes (52) is symmetrically sealed and limited to be slidably inserted with a plurality of pressure self-locking tongues (53), one end of each of the pressure self-locking tongues (53) far away from the hydraulic hole (52) is aligned with the outer wall of the telescopic rod (5), and the distance between each of the pressure self-locking tongues (53) and the reset slider (44) is equal to the distance between the reset chamber (41) and the self-locking chamber (42).

3. The computer system integrated control cabinet according to claim 2, wherein an unlocking groove (61) is formed in one end, close to the telescopic rod (5), of each self-locking block (6), an unlocking column (63) is installed in each unlocking groove (61) in a sliding mode, a hydraulic column (55) is installed in one side, close to the self-locking block (6), of each hydraulic cavity (51) in a sealing and sliding mode, a linkage rod (56) is installed at one end, close to the self-locking block (6), of each hydraulic column (55) in a fixed mode, a pressure spring (54) fixed to the inner wall of each hydraulic column (55) and the inner wall of each hydraulic cavity (51) is sleeved on each linkage rod (56), and one end, close to the self-locking block (6), of each linkage rod (56) extends into each unlocking groove (61) and is fixedly connected with the unlocking column (63).

4. The integrated control cabinet for computer systems according to claim 3, wherein each unlocking hole (62) communicated with the corresponding unlocking groove (61) is formed in the side wall of each self-locking block (6), each unlocking rod (8) is symmetrically inserted into the side wall of each self-locking block (6) in a sliding mode, each unlocking plate (81) is installed at one end, far away from the self-locking block (6), of each unlocking rod (8), each unlocking spring (82) is sleeved on each unlocking plate (8) and fixed on the outer wall of each unlocking plate (81) and the outer wall of each self-locking block (6), each unlocking plate (81) is close to one side of each self-locking block (6) and provided with a curved surface pushing block (83), each unlocking column (63) is provided with a curved surface pushing groove (64) on the outer side wall, and each curved surface pushing block (83) is far away from one end, far away from each unlocking plate (81), of each curved surface pushing block passes through the unlocking hole (62) and is inserted into the curved surface pushing groove (64).

5. The computer system integrated control cabinet according to claim 4, wherein a plurality of sliding openings (31) are symmetrically formed in the side wall of each partition plate (3), a low-resistance slider (32) is slidably mounted in each sliding opening (31), the side wall of each low-resistance slider (32) is fixedly connected with a corresponding self-locking block (6), each self-locking block (6) is located on one side of two partition plates (3) away from each other, a rotating groove (65) is formed in each self-locking block (6), a plurality of rotating blocks (21) are symmetrically mounted on the inner wall of each cabinet door (2), a rotating shaft (22) is fixedly inserted in each rotating block (21), and each rotating shaft (22) is rotatably mounted in the corresponding rotating groove (65), the projection distance from the axis of the rotating shaft (22) to the cabinet door (2) is smaller than the projection distance from the axis of the rotating shaft (22) to the unlocking plate (81).

6. The integrated control cabinet for computer systems as claimed in claim 5, wherein each partition (3) is provided with an electric driving mechanism (7) at a side thereof close to the inner wall of the cabinet body (1), each electric driving mechanism (7) comprises two parallel racks (71) symmetrically fixed on the side wall of the partition (3), a gear driving machine (72) is slidably mounted on each of the two parallel racks (71) at the same side, each gear driving machine (72) is symmetrically provided with a driving shaft (74), each driving shaft (74) is fixedly connected with the rotating shaft (22) at the corresponding side, a plurality of fixing rods (73) are symmetrically and fixedly mounted on the side wall of each gear driving machine (72), and one ends of the fixing rods (73) far away from the gear driving machine (72) are fixed on the self-locking blocks (6) at the corresponding side, each baffle (3) is close to one end of the cabinet door (2) and is embedded with a plurality of magnetic plates (33).