CN114667049B - Intelligent integrated monitoring system central control cabinet - Google Patents

Abstract

The invention relates to the technical field of retrieval servers, in particular to a central control cabinet of an intelligent integrated monitoring system. The invention provides an intelligent integrated monitoring system central control cabinet, which comprises: the box body is rectangular and hollow, and the upright column is vertically fixed in the box body; the lifting part is arranged on the outer wall of the upright post in a sliding manner, the bearing table is fixed on one side of the lifting part and is suitable for placing a server; the box body is provided with a plurality of radiating fans at one end close to the bearing table, the radiating fans are arranged along the height direction of the box body, the radiating part can be arranged at one side of the bearing table close to the radiating fans in a sliding manner, and the lifting part slides upwards or downwards to adapt to servers with different heights; the heat dissipation part slides back and forth to accelerate the air flow speed in the box body.

Description

Intelligent integrated monitoring system central control cabinet

Technical Field

The invention relates to the technical field of retrieval servers, in particular to a central control cabinet of an intelligent integrated monitoring system.

Background

In the installation process of electrical equipment, more and more motor control cabinets are installed on site, but because the environment of industrial field is different, some environment can be very high in temperature, and the operation of equipment can be influenced to the high temperature in the server use. Among the prior art many through water-cooling or air-cooled mode cool off the thermostatic control cabinet to guarantee the normal work of server, but the radiating effect after the forced air cooling is too high to the temperature in the equipment is not good, and the water-cooling is installed again and is used complicacy, still needs extra refrigeration cycle water, and equipment operation cost is high.

Therefore, it is necessary to develop an intelligent integrated monitoring system central control cabinet.

Disclosure of Invention

The invention aims to provide an intelligent integrated monitoring system central control cabinet.

In order to solve the above technical problem, the present invention provides an intelligent integrated monitoring system central control cabinet, which comprises: the box body is rectangular and hollow, and the upright column is vertically fixed in the box body;

the lifting part is arranged on the outer wall of the upright post in a sliding manner, the bearing table is fixed on one side of the lifting part and is suitable for placing a server;

one end of the box body close to the bearing table is provided with a plurality of radiating fans which are arranged along the height direction of the box body,

the heat dissipation part is slidably arranged on one side of the bearing platform close to the heat dissipation fan, wherein

The lifting part slides upwards or downwards to adapt to servers with different heights;

the heat dissipation part slides back and forth to accelerate the air flow speed in the box body.

Further, the elevating portion includes: the lifting motor, the supporting column and the fixing ring are sleeved on the outer wall of the upright column, one end of the supporting column is vertically fixed on the side wall of the fixing ring, and the other end of the supporting column is fixed on the side wall of the bearing table;

the lifting motor is fixed on one side of the fixing ring far away from the bearing table,

a rotating tooth is sleeved at the end part of the lifting motor conveying shaft, and an upright post linear rack meshed with the rotating tooth is arranged on the side wall of the upright post away from the bearing table; wherein

When the lifting motor works, the fixing ring can be driven to vertically move up and down along the upright post.

Furthermore, a wire arranging assembly is further arranged on the upright post, the wire arranging assembly is slidably arranged at the upper end of the upright post, the wire arranging assembly is arranged above the bearing table, and the wire arranging assembly is suitable for clamping a wire harness of the server.

Further, the wire arrangement assembly comprises: the wire arranging device comprises a U-shaped block, an adjusting spiral column, a wire arranging fixing plate and two clamping blocks, wherein the U-shaped block is sleeved on the outer wall of the upright column, and the adjusting spiral column is rotatably arranged at an opening of the U-shaped block;

the wire arranging fixing plate is fixed at the upper end of one side, close to the bearing table, of the U-shaped block, and the two clamping blocks are arranged on the side wall of the wire arranging fixing plate in a sliding mode respectively; wherein

When the U-shaped block is unscrewed by rotating the adjusting screw column, the U-shaped block slides up and down along the upright column;

and adjusting the two clamping blocks to slide towards or away from each other so as to clamp the server wiring harness.

Further, the wire arrangement assembly further comprises: the adjusting plate is arranged on the side wall of the wire arranging fixing plate in a sliding mode through the two positioning columns and is arranged above the bearing table;

the adjusting block is fixed at any end of the bidirectional threaded rod, and the bidirectional threaded rod can be driven to axially rotate by rotating the adjusting block;

the two clamping blocks are respectively arranged on the side wall of the adjusting plate in a sliding manner and are respectively linked with the bidirectional threaded rod;

the two positioning columns are respectively arranged on two sides of the bidirectional threaded rod and respectively penetrate through the two clamping blocks; wherein

The adjusting block is rotated to drive the two clamping blocks to move towards or away from each other.

Furthermore, a plurality of line bundle grooves are formed in the inner side wall of the clamping block, and the widths of the grooves of two adjacent line bundle grooves are different;

when the two clamping blocks move oppositely, the wire harness grooves with different widths hold and contain wire harnesses with different sizes.

Further, the heat dissipation portion includes: the heat dissipation support is fixed at one end, far away from the upright post, of the bearing table, and is arranged on one side, close to the heat dissipation fan, of the bearing table;

the heat dissipation motor is fixed on the heat dissipation support, driving teeth are sleeved at the end part of a conveying shaft of the heat dissipation motor, the heat dissipation linear rack is meshed with the driving teeth, and the heat dissipation linear rack is slidably arranged on the side wall of the bearing table;

the heat dissipation box is vertically fixed at the end part of the heat dissipation linear rack, the heat dissipation box is in a hollow rectangular shape, a heat dissipation chamber is arranged in the heat dissipation box, and granular heat dissipation agent is arranged in the heat dissipation chamber;

two side walls of the heat dissipation bin are flexible films, and the flexible films are parallel to the heat dissipation fan;

at least one water bin is arranged in the heat dissipation box, and cooling water is injected into the water bin;

the upper end of the heat dissipation box is hinged with a cover plate, one end of the cover plate is clamped and inserted at the upper end of the heat dissipation box, and the cover plate seals the heat dissipation chamber and the water chamber; wherein

When the heat dissipation motor drives the heat dissipation box to move towards the direction of the heat dissipation fan, the heat dissipation agent extrudes the flexible film to deform, so that a groove is formed on the advancing direction side of the heat dissipation box;

when the heat dissipation motor drives the heat dissipation box to move reversely, the heat dissipation agent firstly extrudes the flexible film under the inertia effect to drive the airflow in the groove to flow towards the heat dissipation fan;

when the temperature in the box body rises to open the cover plate, the heat dissipation linear rack moves to the maximum stroke each time, and the cover plate flaps the heat dissipation fan;

when water in the water bin overflows into the heat dissipation bin, the water reacts with the heat dissipation agent, and the heat dissipation agent absorbs heat to cool the box body.

Furthermore, the cover plate is hinged to the upper end of the heat dissipation box through a torsion spring, an annular buckle is fixed on the cover plate, and the lower end of the annular buckle is matched with the side wall of the heat dissipation chamber; wherein

When the cover plate is covered, the annular buckle can tightly buckle and seal the cover plate at the upper end of the heat dissipation chamber;

when the water pressure in the water bin chamber rises, the water pressure can push the cover plate to be opened so that the cooling water in the water bin chamber can diffuse into the heat dissipation bin chamber.

Furthermore, the outer wall of the heat dissipation chamber is provided with a step matched with the annular buckle, and the step is parallel to the inner wall of the lower end of the annular buckle; wherein

When the cover is closed, the lower end of the annular buckle can be inserted into the lower end face of the step to cover and seal the water chamber and the heat dissipation chamber;

when the cover plate is opened, cooling water in the water bin chamber overflows into the heat dissipation bin chamber, the heat dissipation agent and water chemically react, the heat dissipation agent absorbs heat and is solidified, and the heat dissipation agent pushes the annular button to beat the side wall of the heat dissipation fan to warn.

The intelligent integrated monitoring system central control cabinet has the beneficial effects that the server, the heat dissipation part and the lifting part can be accommodated through the arrangement of the box body. The lifting part can lift along the vertical direction to adapt to servers with different heights and sizes. Thereby the heat dissipation part can reciprocating slide accelerate the air velocity to in the box to can be when the temperature in the box surpasss the suitable temperature of depositing of server, can promptly cool down the box, and send and detain the sound, in order to remind operating personnel.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of a preferred embodiment of a central control cabinet of an intelligent integrated monitoring system of the present invention;

fig. 2 is a perspective view of the lifting portion of the present invention;

FIG. 3 is a perspective view of the wire management assembly of the present invention;

FIG. 4 is a perspective view of a heat sink portion of the present invention;

fig. 5 is a perspective view of the heat dissipation case of the present invention.

In the figure:

1. a box body; 10. a heat radiation fan; 2. a column; 3. a bearing table; 4. a lifting part; 41. a lifting motor; 42. a support pillar; 43. a fixing ring; 44. a wire arranging assembly; 441. a U-shaped block; 442. adjusting the screw column; 443. a wire arranging fixing plate; 444. a clamping block; 445. an adjusting plate; 446. a bidirectional threaded rod; 447. an adjusting block; 448. a positioning column; 449. a harness slot;

5. a heat dissipating section; 51. a heat dissipation bracket; 52. a heat dissipation motor; 53. a heat dissipation linear rack; 54. a heat dissipation box; 541. a heat dissipation chamber; 542. a water compartment; 543. a flexible film; 544. a cover plate; 545. an annular buckle; 546. a step; 547. the drive teeth.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1 to 5, the present invention provides an intelligent integrated monitoring system central control cabinet, which includes: the box 1, the column 2, the plummer 3, the lifting part 4 and the heat radiating part 5. The column 2, the stage 3, the elevating unit 4, and the heat radiating unit 5 are suitably mounted in the housing 1. The column 2 is positioned to carry the lifting portion 4. The carrier 3 is adapted to carry a server thereon. The lift 4 is adapted to drive the platform 3 to slide vertically along the upright 2. The heat radiating portion 5 is adapted to radiate heat inside the case 1. The details of the above components are described below.

Case body 1

The whole box body 1 is rectangular, the inside of the box body 1 is hollow, the box body 1 can be used as a mounting base of the incubator shown in the embodiment, and the upright post 2, the bearing platform 3, the lifting part 4 and the heat dissipation part 5 can be mounted in the box body 1. Meanwhile, the lower end of the box body 1 is provided with a plurality of idler wheels, and the box body 1 can be pushed to move horizontally conveniently through the idler wheels.

In addition, a plurality of heat dissipation fans 10 are disposed on a side wall of the box body 1 in the length direction, and the heat dissipation fans 10 are disposed along the height direction of the box body 1. The server can be placed in the box body 1, when the server is powered on to work, heat can be generated, and the heat dissipation fan 10 can discharge hot air in the box body 1 outwards out of the box body 1.

Upright post

The upright post 2 is fixedly arranged in the box body 1, the upright post 2 vertically extends upwards from the inner bottom wall of the box body 1, and the lifting part 4 is suitable for being positioned on the upright post 2. In order to achieve the above effect, a linear rack is arranged on one side of the upright post 2 along the height direction, and the lifting part 4 is matched with the linear rack.

Bearing platform

The bearing table 3 is fixedly arranged on one side of the lifting part 4, and the bearing table 3 is suitable for bearing a server. Specifically, the server can be placed on the upper end of the bearing table 3, and the bearing table 3 can provide reliable support for the server. The heat dissipation fan 10 is disposed on one side of the bearing table 3, so that the heat dissipation fan 10 can enhance the heat dissipation effect on the server, and the heat generated by the server is prevented from being retained in the box body 1.

Lifting part

The lifting part 4 is slidably arranged on the outer wall of the upright post 2. Lifting unit 4 can follow the vertical slip of the direction of height of stand 2, and one side fixedly connected with plummer 3 of lifting unit 4, and the server passes through plummer 3 to be fixed in one side of lifting unit 4 to can adjust the vertical height of plummer 3 through lifting unit 4, lifting unit 4 can adjust the height of plummer 3 apart from the interior roof of box 1 along the vertical slip of stand 2 promptly, thereby makes plummer 3 can the not co-altitude server of adaptation.

The structure of the lifting unit 4 will be described in detail below, and the lifting unit 4 includes: a lift motor 41, a support column 42, and a fixing ring 43. The fixed ring 43 is sleeved on the outer wall of the stand column 2, the inner wall of the fixed ring 43 is matched with the outer wall of the stand column 2, and the lifting part 4 can slide along the vertical direction of the stand column 2 through the fixed ring 43. Support column 42 one end vertical fixation is in gu fixed ring 43 lateral wall, the support column 42 other end is fixed 3 lateral walls of plummer, plummer 3 pass through support column 42 and solid fixed ring 43 fixed connection to when making solid fixed ring 43 along the vertical slip of stand 2, can drive the vertical lift of support column 42, thereby adjust the vertical height of plummer 3. Lifting motor 41 is fixed gu fixed ring 43 keeps away from one side of plummer 3, lifting motor 41 carries axle head portion cover to decide and has rotated the tooth, rotate the linear rack meshing on tooth and the stand 2. So that elevator motor 41 during operation can rotate through the drive rotation tooth to make the rotation tooth slide along the straight line rack, and then realize driving solid fixed ring 43 along the vertical gliding effect of stand 2.

In addition, still be provided with a reason line subassembly 44 on the stand 2, reason line subassembly 44 slidable sets up on stand 2 to reason line subassembly 44 sets up in plummer 3 and the server top that sets up on the plummer 3, and the pencil can pass reason line subassembly 44 and be connected to the server on, reason line subassembly 44 can press from both sides the pencil of tight server, avoids the server pencil to twine.

To achieve the above-mentioned effect, the wire management assembly 44 includes: a U-shaped block 441, an adjusting screw column 442, a wire arranging fixing plate 443 and two clamping blocks 444. The U-shaped block 441 is sleeved on the outer wall of the upright post 2, and the opening direction of the U-shaped block 441 is the same as the arrangement direction of the bearing table 3. The adjusting screw column 442 is rotatably arranged at the opening of the U-shaped block 441, threaded through holes matched with the adjusting screw column 442 are formed in two side walls of the U-shaped block 441, the adjusting screw column 442 can axially rotate to draw the distance between two sides of the U-shaped block 441 close to enable the U-shaped block 441 to tightly hold the fixed upright post 2, or the adjusting screw column 442 can reversely rotate to unscrew the two side walls of the U-shaped block 441 to enable the U-shaped block 441 to loosen the upright post 2, and therefore the vertical height of the U-shaped block 441 is adjusted. The wire arranging fixing plate 443 is fixed on the upper end of the U-shaped block 441 near the carrier 3, and the two clamping blocks 444 are slidably disposed on the side walls of the wire arranging fixing plate 443. The server harness can pass through the two clamping blocks 444, and the two clamping blocks 444 are adjusted to slide towards or away from each other, so that the server harness can be clamped or loosened.

To achieve the above-mentioned effect, the wire management assembly 44 further includes: adjusting plate 445, bidirectional threaded rod 446, adjusting block 447 and two positioning posts 448. The adjusting plate 445 is slidably disposed on the sidewall of the wire arranging fixing plate 443 via two positioning posts 448, and the adjusting plate 445 is disposed above the carrier 3. By the arrangement of the positioning column 448, the horizontal position of the adjusting plate 445 can be adjusted, thereby facilitating the passage of the wire harness. The adjusting block 447 is fixed at either end of the bidirectional threaded rod 446, and the bidirectional threaded rod 446 can be driven to rotate axially by rotating the adjusting block 447. The two clamping blocks 444 are slidably disposed on the sidewalls of the adjusting plate 445, and the two clamping blocks 444 are linked with the bidirectional threaded rod 446 respectively, it should be noted that the two clamping blocks 444 correspond to the bidirectional threaded rod 446 having opposite threads, the two positioning columns 448 are disposed on two sides of the bidirectional threaded rod 446, and the two positioning columns 448 penetrate through the two clamping blocks 444 respectively. When the adjusting block 447 is rotated, the two clamping blocks 444 cannot rotate synchronously with the adjusting block 447 due to being limited by the positioning column 448, and therefore slide along the positioning column 448 through the threads, and the two clamping blocks 444 slide in opposite directions due to the opposite rotation directions of the two-way threaded rods 446 corresponding to the two clamping blocks 444, so that the two clamping blocks 444 appear to move toward or away from each other when the adjusting block 447 is rotated. When the two clamping blocks 444 move towards each other, the wire harness passing through the clamping blocks can be clamped from two sides; when the two holding blocks 444 are moved apart from each other, the clamped harness can be released.

In order to avoid the damage of the wire harness caused by the clamping block 444, a plurality of wire harness slots 449 are formed in the inner side wall of the clamping block 444, and the slot widths of the two adjacent wire harness slots 449 are different. When the two holding blocks 444 move towards each other, the harness slots 449 of different widths hold and accommodate the harnesses of different sizes.

Heat dissipation part 5

The heat dissipation part 5 is slidably disposed on a side of the platform 3 close to the heat dissipation fan 10. The heat radiating portion 5 can slide reciprocally to increase the airflow velocity in the cabinet 1.

The structure of the heat dissipation member 5 will be described specifically below, and the heat dissipation member 5 includes: the heat dissipation device comprises a heat dissipation bracket 51, a heat dissipation motor 52, a heat dissipation linear rack 53 and a heat dissipation box 54. The heat dissipation bracket 51 is fixed at one end of the bearing table 3 far away from the upright post 2, and the heat dissipation bracket 51 is arranged at one side of the bearing table 3 close to the heat dissipation fan 10. The heat sink bracket 51 is adapted to carry a heat sink motor 52 thereon. The heat dissipation motor 52 is fixed on the heat dissipation bracket 51, an output shaft of the heat dissipation motor 52 is vertically arranged upwards, a driving tooth 547 is sleeved at the end of the output shaft of the heat dissipation motor 52, the heat dissipation linear rack 53 is meshed with the driving tooth 547, and the heat dissipation linear rack 53 is slidably arranged on the side wall of the bearing table 3. The heat dissipation box 54 is vertically fixed at the end of the heat dissipation linear rack 53 close to the heat dissipation fan 10, and the heat dissipation motor 52 rotates forward or backward to drive the heat dissipation box 54 to close to or move away from the heat dissipation fan 10. The heat dissipation box 54 is hollow and rectangular, when the heat dissipation motor 52 is started, the driving gear 547 can be driven by the output shaft to rotate forward or backward, the driving gear 547 drives the heat dissipation linear rack 53 to horizontally slide in a reciprocating manner, so that the heat dissipation linear rack 53 drives the heat dissipation box 54 to horizontally slide in a reciprocating manner. The heat dissipation box 54 has a heat dissipation chamber 541 therein, and the heat dissipation chamber 541 has granular heat dissipation agent therein. Two side walls of the heat dissipation chamber 541 are flexible films 543, and the flexible films 543 are parallel to the heat dissipation fan 10. When the heat dissipation motor 52 drives the heat dissipation linear rack 53 to push the heat dissipation box 54 to move toward the heat dissipation fan 10, the heat dissipation agent extrudes the flexible film 543 to deform, so that a groove is formed on the advancing direction side of the heat dissipation box 54. When the heat dissipation motor 52 drives the heat dissipation box 54 to move reversely, the heat dissipation agent first presses the flexible film 543 under the inertia effect, so as to drive the air flow in the groove to flow toward the heat dissipation fan 10. Through the above manner, the hot air in the box body 1 can be blown by the flexible film 543 to flow towards the heat dissipation fan 10, so that the heat dissipation effect of the heat dissipation fan 10 is enhanced. At least one water chamber 542 is arranged in the heat dissipation box 54, cooling water is filled in the water chamber 542, and when the temperature in the box body 1 rises, hot air in the box body 1 heats the cooling water, so that the cooling water can cool the box body 1. And when the temperature in the box body 1 is too high, the pressure in the water bin 542 is increased, the water pressure in the water bin 542 props up the cover plate 544, so that the cooling water in the water bin 542 can flow through the partition plate between the water bin 542 and the heat dissipation bin 541 and enter the heat dissipation bin 541, the cooling water and the granular heat-dissipating agent are subjected to chemical reaction, and the granular heat-dissipating agent is subjected to heat absorption and solidification, so that the emergency temperature reduction is performed in the box body. The cooling water can be mixed with the granular heat-dissipating agent in the heat-dissipating chamber 541, and the cooling water reacts with the granular heat-dissipating agent to absorb heat in the box body 1, so that an effect of emergency cooling of the box body 1 is achieved when the temperature in the box body 1 is too high.

In order to achieve the above effect, a cover plate 544 is hinged to the upper end of the heat dissipation box 54, one end of the cover plate 544 is inserted into the upper end of the heat dissipation box 54, and the cover plate 544 seals the heat dissipation chamber 541 and the water chamber 542. Specifically, the cover plate 544 is hinged to the upper end of the heat dissipation box 54 through a torsion spring, an annular button 545 is fixed to the cover plate 544, and the lower end of the annular button 545 is matched with the side wall of the heat dissipation chamber 541. The outer wall of the heat dissipation chamber 541 is provided with a step 546 adapted to the annular button 545, and the step 546 is parallel to the inner wall of the lower end of the annular button 545. When the cover is closed, the lower end of the annular button 545 can be inserted into the lower end surface of the step 546 to close and seal the water chamber 542 and the heat dissipation chamber 541, so that the annular button 545 fastens and seals the cover plate 544 on the upper end of the heat dissipation chamber 541. When the water pressure of the cooling water in the water chamber 542 rises, the water pressure can push the cover plate 544 to open, and the cooling water in the water chamber 542 overflows into the heat dissipation chamber 541. The heat dissipation agent reacts with water chemically, absorbs heat for solidification, and carries out emergency cooling to box 1, and the heat dissipation agent pushes away annular attacker 545 to pat radiator fan 10 lateral wall in order to warn operating personnel, reminds operating personnel the temperature in the box 1 too high, need continue to cool down box 1 in order to prevent the server damage.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. The utility model provides an intelligence integration monitored control system central control cabinet which characterized in that includes:

the box body (1) is rectangular, the box body (1) is hollow, and the upright column (2) is vertically fixed in the box body (1);

the lifting part (4) is arranged on the outer wall of the upright post (2) in a sliding manner, the bearing platform (3) is fixed on one side of the lifting part (4), and the bearing platform (3) is suitable for placing a server;

one end of the box body (1) close to the bearing table (3) is provided with a plurality of heat dissipation fans (10), the heat dissipation fans (10) are arranged along the height direction of the box body (1),

the heat dissipation part (5) is arranged on one side of the bearing platform (3) close to the heat dissipation fan (10) in a sliding way, wherein

The lifting part (4) slides upwards or downwards to adapt to servers with different heights;

the heat dissipation part (5) slides in a reciprocating manner to accelerate the airflow speed in the box body (1);

the heat dissipation part (5) includes: the heat dissipation device comprises a heat dissipation support (51), a heat dissipation motor (52), a heat dissipation linear rack (53) and a heat dissipation box (54), wherein the heat dissipation support (51) is fixed at one end, away from the upright post (2), of the bearing table (3), and the heat dissipation support (51) is arranged on one side, close to the heat dissipation fan (10), of the bearing table (3);

the heat dissipation motor (52) is fixed on the heat dissipation bracket (51), the end part of a conveying shaft of the heat dissipation motor (52) is sleeved with driving teeth (547), the heat dissipation linear rack (53) is meshed with the driving teeth (547), and the heat dissipation linear rack (53) is slidably arranged on the side wall of the bearing table (3);

the heat dissipation box (54) is vertically fixed at the end part of the heat dissipation linear rack (53), the heat dissipation box (54) is in a hollow rectangular shape, a heat dissipation chamber (541) is arranged in the heat dissipation box (54), and granular heat dissipation agents are arranged in the heat dissipation chamber (541);

two side walls of the heat dissipation bin (541) are flexible films (543), and the flexible films (543) are parallel to the heat dissipation fan (10);

at least one water chamber (542) is arranged in the heat dissipation box (54), and cooling water is injected into the water chamber (542);

a cover plate (544) is hinged at the upper end of the heat dissipation box (54), one end of the cover plate (544) is inserted at the upper end of the heat dissipation box (54), and the cover plate (544) seals the heat dissipation chamber (541) and the water chamber (542); wherein

When the heat dissipation motor (52) drives the heat dissipation box (54) to move towards the direction of the heat dissipation fan (10), the heat dissipation agent extrudes the flexible film (543) to deform, so that a groove is formed on the advancing direction side of the heat dissipation box (54);

when the heat dissipation motor (52) drives the heat dissipation box (54) to move reversely, the heat dissipation agent firstly extrudes the flexible film (543) under the inertia effect to drive the airflow in the groove to flow towards the heat dissipation fan (10);

when the temperature in the box body (1) rises to open the cover plate (544), the heat dissipation linear rack (53) moves to the maximum stroke every time, and the cover plate (544) flaps the heat dissipation fan (10);

when water in the water chamber (542) overflows into the heat dissipation chamber (541), the water reacts with the heat dissipation agent, and the heat dissipation agent absorbs heat to cool the interior of the box body (1).

2. The intelligent integrated monitoring system central control cabinet according to claim 1,

the lifting unit (4) includes: the lifting device comprises a lifting motor (41), a supporting column (42) and a fixing ring (43), wherein the fixing ring (43) is sleeved on the outer wall of the upright post (2), one end of the supporting column (42) is vertically fixed on the side wall of the fixing ring (43), and the other end of the supporting column (42) is fixed on the side wall of the bearing table (3);

the lifting motor (41) is fixed on one side of the fixing ring (43) far away from the bearing table (3),

a rotating tooth is sleeved at the end part of the conveying shaft of the lifting motor (41), and a linear rack of the upright post (2) meshed with the rotating tooth is arranged on the side wall of the upright post (2) far away from the bearing table (3); wherein

When the lifting motor (41) works, the fixing ring (43) can be driven to vertically move up and down along the upright post (2).

3. The intelligent integrated monitoring system central control cabinet according to claim 2,

the server is characterized in that the upright post (2) is further provided with a wire arranging assembly (44), the wire arranging assembly (44) is arranged at the upper end of the upright post (2) in a sliding mode, the wire arranging assembly (44) is arranged above the bearing table (3), and the wire arranging assembly (44) is suitable for clamping a wire harness of a server.

4. The intelligent integrated monitoring system central control cabinet according to claim 3,

the wire management assembly (44) comprises: the wire arranging fixing plate comprises a U-shaped block (441), an adjusting spiral column (442), a wire arranging fixing plate (443) and two clamping blocks (444), wherein the U-shaped block (441) is sleeved on the outer wall of the upright post (2), and the adjusting spiral column (442) is rotatably arranged at an opening of the U-shaped block (441);

the wire arranging fixing plate (443) is fixed at the upper end of one side of the U-shaped block (441) close to the bearing table (3), and the two clamping blocks (444) are respectively arranged on the side wall of the wire arranging fixing plate (443) in a sliding manner; wherein

When the U-shaped block (441) is unscrewed by rotating the adjusting screw column (442), the U-shaped block (441) slides up and down along the upright column (2);

the two clamping blocks (444) are adjusted to slide toward or away from each other to clamp the server harness.

5. The intelligent integrated monitoring system central control cabinet according to claim 4,

the wire management assembly (44) further comprises: the adjusting plate (445) is slidably arranged on the side wall of the wire arranging fixing plate (443) through the two positioning columns (448), and the adjusting plate (445) is arranged above the bearing table (3);

the adjusting block (447) is fixed at either end of the bidirectional threaded rod (446), and the bidirectional threaded rod (446) can be driven to rotate axially by rotating the adjusting block (447);

the two clamping blocks (444) are respectively arranged on the side wall of the adjusting plate (445) in a sliding manner, and the two clamping blocks (444) are respectively linked with the bidirectional threaded rod (446);

the two positioning columns (448) are respectively arranged at two sides of the bidirectional threaded rod (446), and the two positioning columns (448) respectively penetrate through the two clamping blocks (444); wherein

The adjusting block (447) can be rotated to drive the two clamping blocks (444) to move towards or away from each other.

6. The intelligent integrated monitoring system central control cabinet according to claim 5,

a plurality of line bundle grooves (449) are formed in the inner side wall of the clamping block (444), and the groove widths of two adjacent bundle grooves (449) are different;

when the two clamping blocks (444) move towards each other, the wire harness slots (449) with different widths are used for clamping and accommodating wire harnesses with different sizes.

7. The intelligent integrated monitoring system central control cabinet of claim 6,

the cover plate (544) is hinged to the upper end of the heat dissipation box (54) through a torsion spring, an annular buckle (545) is fixed on the cover plate (544), and the lower end of the annular buckle (545) is matched with the side wall of the heat dissipation chamber (541); wherein

When the cover plate (544) is closed, the annular buckle (545) can buckle and seal the cover plate (544) at the upper end of the heat dissipation chamber (541);

when the water pressure in the water bin (542) rises, the water pressure can push the cover plate (544) to open, so that the cooling water in the water bin (542) can diffuse into the heat dissipation bin (541).

8. The intelligent integrated monitoring system central control cabinet according to claim 7,

a step (546) matched with the annular button handle (545) is arranged on the outer wall of the heat dissipation chamber (541), and the step (546) is parallel to the inner wall of the lower end of the annular button handle (545); wherein

When the water tank is closed, the lower end of the annular button (545) can be inserted into the lower end face of the step (546) to close the sealing water chamber (542) and the heat dissipation chamber (541);

when the cover plate (544) is opened, cooling water in the water chamber (542) overflows into the heat dissipation chamber (541), the heat dissipation agent chemically reacts with water, the heat dissipation agent absorbs heat and is solidified, and the heat dissipation agent pushes the annular button (545) to flap the side wall of the heat dissipation fan (10) to warn.

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