CN212211730U

CN212211730U - Automatic shock-absorbing electric cabinet of regulation server

Info

Publication number: CN212211730U
Application number: CN202021435012.4U
Authority: CN
Inventors: 辛力
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-20
Filing date: 2020-07-20
Publication date: 2020-12-22
Anticipated expiration: 2030-07-20

Abstract

An electric cabinet capable of automatically adjusting shock absorption of a server relates to the technical field of electric cabinets. For solving current electric cabinet at the in-process that removes, the inside server of electric cabinet can take place to move by cluster, leads to the server to bump in the electric cabinet, damages the server, and the shock attenuation effect is relatively poor, and current electric cabinet is not applicable to the server of used model, and the commonality is relatively poor, and is automatic poor, leads to the installation more loaded down with trivial details to the relatively poor problem of radiating effect of electric cabinet. The temperature sensor is adopted to monitor the temperature in the electric cabinet in real time, and if the measured temperature is higher, the central controller is used for controlling the motor, so that the heat dissipation effect is improved; the pressure sensors are adopted to measure the quality of the servers of different models, the central controller is used for controlling the states of the air pump and the electromagnetic control valve, the air pressure of the two air cylinders is controlled, the automatic control of the damping strength is realized, and the automation degree is improved. The utility model is suitable for an electric cabinet field.

Description

Automatic shock-absorbing electric cabinet of regulation server

Technical Field

The utility model relates to an electric cabinet technical field, concretely relates to automatic adjustment server absorbing electric cabinet.

Background

At present, along with the rise of intelligent mobile device, more and more applications are developed and applied, along with the use of various software and APP, requirement to server computing power and data storage capacity is higher and higher, this more server center that need to be built, and it needs to transport the server from the firm to relevant server position to build the server center, because the server belongs to precision equipment and value is higher, need carry out tight protection to the server when the transportation, to the influence to the server in the server transportation, because the server internal plant is more, when using, place the server and use in the electric cabinet, can remove the position of electric cabinet sometimes, lead to the server to bump in the electric cabinet, lead to the damage of server, and the radiating effect of electric cabinet is relatively poor.

In conclusion, in the moving process of the existing electric cabinet, the server inside the electric cabinet can move in a string manner, so that the server is collided in the electric cabinet, the server is damaged, the damping effect is poor, the existing electric cabinet is not suitable for the server of the used model, the universality is poor, the automation is poor, the installation process is complicated, and the heat dissipation effect of the electric cabinet is poor.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve current electric cabinet at the in-process that removes, the inside server of electric cabinet can take place to move by string, leads to the server to bump in the electric cabinet, damages the server, and the shock attenuation effect is relatively poor, and current electric cabinet is not applicable to the server of used model, and the commonality is relatively poor, and is automatic poor, leads to the installation more loaded down with trivial details to the relatively poor problem of radiating effect of electric cabinet, and provides an automatic adjustment server absorbing electric cabinet.

The utility model discloses an automatic adjust electric cabinet of server shock attenuation, its constitution includes blade, motor, casing, tray, air pump, connecting rod, solenoid electric valve, cylinder, trachea, cylinder two, supplementary shock attenuation subassembly, baffle, connecting rod two, motor two, blade two, temperature sensor, central controller and pressure sensor one number;

the shell is in a cuboid shape, the top of the shell is provided with two first motors, an output shaft of each first motor penetrates through the top of the shell and is connected with a first blade, the middle part of the top end of the shell is provided with a central controller, one end face of the shell is provided with two second motors, an output shaft of each second motor penetrates through the top of the shell and is connected with a second blade, the end face of the other end of the shell is provided with two ventilation openings, the side face of the shell is provided with a rectangular through hole, the edge of the through hole is hinged with one end of a push door, a baffle plate is arranged below the inside of the shell, the center of the baffle plate is provided with a rectangular through hole, the center of the bottom face inside the shell is provided with a first air cylinder and a second air cylinder which are arranged oppositely, the center of the bottom face of the tray is provided with a connecting seat, one end of a first connecting rod is hinged with, one end of a second connecting rod is hinged with a piston rod of a second air cylinder, the other end of the second connecting rod is hinged with a tray bottom surface connecting seat, a tray is arranged in a rectangular through hole of the baffle, the outer surface of a rod cavity of the first air cylinder is uniformly provided with an air inlet pipe and an exhaust pipe, the outer surface of the rod cavity of the second air cylinder is uniformly provided with an air inlet pipe and an exhaust pipe, the exhaust pipes of the first air cylinder and the second air cylinder are respectively provided with an electromagnetic control valve, one end of the inner bottom surface of the shell is provided with an air pump, the air inlet pipe of the first air cylinder penetrates through the bottom of the shell to be connected with one end of the air pipe, the other end of the air pipe penetrates through the bottom of the shell to be connected with the output end of the air pump, the air inlet pipe of the second air cylinder penetrates through the bottom surface of the shell to be connected with a branch pipe, four corners of the, two ends of the middle part of the upper surface of the tray are respectively provided with a pressure sensor, and the inner wall of the shell is provided with a temperature sensor;

furthermore, a circular truncated cone-shaped boss is arranged at the top end of each protrusion;

furthermore, the auxiliary damping assembly comprises a T-shaped supporting rod, a spring and an end cover, the small-diameter end of the T-shaped supporting rod penetrates through a through hole in a bulge on the bottom surface inside the shell and is fixedly connected with the bottom surface of the tray, the end cover is arranged at the through hole on the bottom surface of the shell and is connected with the bottom surface of the shell through a bolt, and the spring is arranged between the T-shaped supporting rod and the end cover;

furthermore, the temperature signal output end of the temperature sensor is connected with the temperature signal input end of the central controller, the driving signal output end of the central controller is respectively connected with the first motor and the second motor, the pressure signal output end of the pressure sensor is connected with the pressure signal input end of the central controller, the pneumatic signal output end of the central controller is connected with the air pump, and the electromagnetic signal output end of the central controller is connected with the electromagnetic control valve;

furthermore, the two first motors at the top of the shell are arranged on the same horizontal line;

furthermore, four corners of the upper surface of the tray are respectively provided with a telescopic rod, and the top of each telescopic rod is provided with a stop block;

furthermore, a layer of anti-slip glue is arranged on the bottom surface of the stop block;

furthermore, supporting pulleys are respectively arranged at four corners of the bottom surface of the shell;

furthermore, a layer of rubber is arranged on the outer surface of the pulley in the supporting pulley;

furthermore, a dustproof net is embedded in the ventilation openings on the other end face of the shell, and the axial direction of each ventilation opening is coaxial with the axis of the second motor;

furthermore, when the device is used, a worker pulls the push door open, inserts the server into the tray longitudinally, stops on the top ends of the telescopic rods at the four corners of the tray are used for preventing the server from moving left and right during transportation, and the pressure sensor on the upper surface of the tray measures the quality of the server;

when the pressure of the server measured by the pressure sensor is larger, the measured pressure value signal is transmitted to the central controller, the central controller transmits a pneumatic signal to the air pump, at the moment, when the rod cavities of the two air cylinders are simultaneously inflated by the air pump, the air pressure in the rodless cavity is increased, the pressure on the tray is transmitted to the piston rods of the two air cylinders through the two connecting rods, the gravity of the server in the tray is neutralized through the air pressure in the rodless cavity of the air cylinders, and the buffering and damping effects are achieved;

when the pressure of the server measured by the pressure sensor is small, the measured pressure value signal is transmitted to the central controller, the central controller transmits the electromagnetic signal to the electromagnetic control valve, the electromagnetic control valve is opened, the air pressure in the rodless cavity is reduced by simultaneously deflating the rod cavities of the two cylinders, the pressure on the tray is transmitted to the piston rods of the two cylinders through the two connecting rods, the gravity of the server in the tray is neutralized through the air pressure in the rodless cavity of the cylinder, and the buffer and shock absorption effects are achieved;

the top ends of the auxiliary shock absorption components at the four corners of the bottom surface inside the shell are connected with the bottom of the tray; when the server is longitudinally inserted into the tray, the tray has a vertical downward force, the tray transmits the force to the spring through the T-shaped support rod, and the spring has a vertical upward reaction force; at the moment, the server is buffered, and the damping effect is improved;

finally, the server is installed, after the pressure of the two cylinders is adjusted, the temperature sensor on the inner wall of the shell can measure the temperature of the inside of the electric cabinet in real time, when the temperature reaches 60 degrees, the temperature sensor transmits a temperature signal to the central controller, the central controller transmits a driving signal to the first motor and the second motor respectively, the driving motor rotates, the four blades inside the shell rotate, and automatic cooling and heat dissipation of the server in work are achieved.

Compared with the prior art, the utility model following beneficial effect has:

the utility model provides a, the utility model overcomes prior art's shortcoming, to the corresponding quality of server of different models, there is the atmospheric pressure of pole intracavity portion in adjusting cylinder and No. two cylinders through the air pump, thereby adjust the shock-absorbing strength of whole device, the one end of rethread connecting rod is articulated with the piston rod of cylinder, the other end and the tray bottom surface connecting seat of connecting rod are articulated, the one end of No. two connecting rods is articulated with the piston rod of No. two cylinders, the other end and the tray bottom surface connecting seat of No. two connecting rods are articulated, and utilize damper's top and tray bottom to be connected, realize carrying out the shock attenuation to the server on the tray, improve the shock attenuation effect, and improve the commonality of electric cabinet, avoid damaging the server at the in-process that removes the electric cabinet.

Two, the utility model overcomes prior art's shortcoming, the upper surface both ends that adopt the tray are equipped with an arc bent plate respectively, vertically insert the tray with the server, utilize the arc bent plate at tray both ends, prevent to control when the transportation and play, damage the server.

Thirdly, the utility model overcomes prior art's shortcoming adopts and is equipped with two radiator vane at the inside top of casing, and the inside side of casing is equipped with two radiator vane to still be equipped with the vent in the casing side, improve the radiating effect of electric cabinet.

Four, the utility model overcomes prior art's shortcoming, adopt temperature sensor to carry out real-time control to the inside temperature of electric cabinet, if the temperature that records is higher, control a motor and No. two motors through central controller, improve radiating effect, still adopt pressure sensor to carry out the measurement of quality to the server of different models, and through the state of central controller control air pump and solenoid electric valve, control the atmospheric pressure that has the pole chamber of two cylinders, realize the automatic control to shock attenuation intensity, the degree of automation is improved, the installation is simpler.

Fifthly, the utility model is simple in operation and convenient in use.

Drawings

Fig. 1 is a sectional view of an electric cabinet for automatically adjusting the shock absorption of a server according to the present invention;

fig. 2 is a partial enlarged view of a part a in the electronic control box for automatically adjusting the shock absorption of the server according to the present invention;

fig. 3 is a flow chart of the work of the electric cabinet for automatically adjusting the shock absorption of the server.

Detailed Description

The first embodiment is as follows: the present embodiment is described with reference to fig. 1 and 2, and the electric cabinet for automatically adjusting the shock absorption of the server according to the present embodiment includes a first blade 1, a first motor 2, a housing 3, a tray 4, an air pump 5, a first connecting rod 7, an electromagnetic control valve 8, a first air cylinder 9, an air pipe 10, a second air cylinder 11, an auxiliary shock absorption assembly 12, a baffle 13, a second connecting rod 14, a second motor 15, a second blade 16, a temperature sensor 17, a central controller 18, and a pressure sensor 19;

the shell 3 is cuboid, two first motors 2 are arranged at the top of the shell 3, an output shaft of each first motor 2 penetrates through the top of the shell 3 and is connected with a first blade 1, a central controller 18 is arranged in the middle of the top end of the shell 3, two second motors 15 are arranged at one end face of the shell 3, an output shaft of each second motor 15 penetrates through the top of the shell 3 and is connected with a second blade 16, two ventilation openings are arranged at the other end face of the shell 3, a rectangular through hole is arranged on the side face of the shell 3, the edge of the through hole is hinged with one end of a push door, a baffle 13 is arranged below the shell 3, a rectangular through hole is arranged at the center of the baffle 13, a first air cylinder 9 and a second air cylinder 11 are arranged at the center of the bottom face of the shell 3, the first air cylinder 9 and the second air cylinder 11 are oppositely arranged, a connecting seat is arranged at the center of the bottom face of the tray 4, one end of, the other end of the first connecting rod 7 is hinged with a connecting seat at the bottom surface of the tray 4, one end of the second connecting rod 14 is hinged with a piston rod of the second air cylinder 11, the other end of the second connecting rod 14 is hinged with a connecting seat at the bottom surface of the tray 4, the tray 4 is arranged in a rectangular through hole of the baffle 13, an air inlet pipe and an air outlet pipe are uniformly arranged on the outer surface of a rod cavity of the first air cylinder 9, an air inlet pipe and an air outlet pipe are uniformly arranged on the outer surface of a rod cavity of the second air cylinder 11, electromagnetic control valves 8 are respectively arranged on the air outlet pipes of the first air cylinder 9 and the second air cylinder 11, one end of the inner bottom surface of the shell 3 is provided with an air pump 5, the air inlet pipe of the first air cylinder 9 penetrates through the bottom of the shell 3 to be connected with one end of an air pipe 10, the other end of the air pipe 10 penetrates through the bottom of the shell, a through hole is formed in the center of the upper surface of the bulge, auxiliary shock absorption assemblies 12 are arranged in the through hole, the top end of each auxiliary shock absorption assembly 12 is fixedly connected with the bottom surface of the tray 4, two ends of the middle part of the upper surface of the tray 4 are respectively provided with a pressure sensor 19, and the inner wall of the shell 3 is provided with a temperature sensor 17;

in the specific embodiment, when the device is used, a worker pulls open the push door, longitudinally inserts the server into the tray 4, prevents the server from moving left and right during transportation by using the stop blocks on the top ends of the telescopic rods at the four corners of the tray 4, and measures the quality of the server by using the pressure sensor 19 on the upper surface of the tray 4;

when the server pressure measured by the pressure sensor 19 is large, the measured pressure value signal is transmitted to the central controller 18, the central controller 18 transmits a pneumatic signal to the air pump 5, at the moment, when the rod cavities of the two air cylinders are simultaneously inflated by the air pump, the air pressure in the rodless cavity is increased, the pressure on the tray 4 is transmitted to the piston rods of the two air cylinders through the two connecting rods, the gravity of the server in the tray is neutralized through the air pressure in the rodless cavity of the air cylinder, and the buffering and shock absorption effects are achieved;

when the server pressure measured by the pressure sensor 19 is small, the measured pressure value signal is transmitted to the central controller 18, the central controller 18 transmits the electromagnetic signal to the electromagnetic control valve 8, the electromagnetic control valve 8 is opened, the air pressure in the rodless cavity is reduced when the rod cavities of the two air cylinders are simultaneously deflated, the pressure on the tray 4 is transmitted to the piston rods of the two air cylinders through the two connecting rods, the gravity of the server in the tray 4 is neutralized through the air pressure in the rodless cavity of the air cylinders, and the buffering and shock absorption effects are achieved;

the top ends of the auxiliary shock absorption components 12 at the four corners of the bottom surface inside the shell 3 are connected with the bottom of the tray 4; when the server is longitudinally inserted into the tray, the tray has a vertical downward force, the tray 4 transmits the force to the spring 12-2 through the T-shaped support rod 12-1, and then the spring 12-2 has a vertical upward reaction force; at the moment, the server is buffered, and the damping effect is improved;

finally, the server is installed, after the pressure of the two cylinders is adjusted, the temperature sensor 19 on the inner wall of the shell 3 can measure the temperature of the inside of the electric cabinet in real time, when the temperature reaches 60 degrees, the temperature sensor 17 transmits a temperature signal to the central controller 18, the central controller 18 transmits a driving signal to the first motor 2 and the second motor 15 respectively, the driving motor rotates, four blades inside the shell 3 rotate, and automatic cooling and heat dissipation of the server in work are achieved.

The second embodiment is as follows: the present embodiment is described with reference to fig. 1, and the present embodiment is a further limitation to the electric cabinet according to the first embodiment, and in the electric cabinet for automatically adjusting the shock absorption of the server according to the present embodiment, each of the protrusions has a circular truncated cone-shaped boss at a top end thereof.

The third concrete implementation mode: the present embodiment is described with reference to fig. 1 and 2, and is a further limitation of the electric cabinet according to the first embodiment, in the electric cabinet for automatically adjusting the shock absorption of the server according to the present embodiment, the auxiliary shock absorption assembly 12 includes a T-shaped support rod 12-1, a spring 12-2 and an end cover 12-3, a small diameter end of the T-shaped support rod 12-1 passes through a through hole on a protrusion on the bottom surface of the inside of the housing 3 and is fixedly connected with the bottom surface of the tray 4, the end cover 12-3 is arranged at the through hole on the bottom surface of the housing 3, the end cover 12-3 is connected with the bottom surface of the housing 3 through a bolt, and the spring 12-2 is arranged between the T-shaped support rod 12-1 and the end cover 12-3;

this embodiment, with this arrangement, improves the damping effect of the device.

The fourth concrete implementation mode: the present embodiment is described with reference to fig. 1, fig. 2 and fig. 3, and is further limited to the electric cabinet according to the first embodiment, in the electric cabinet for automatically adjusting the damping of the server according to the present embodiment, the temperature signal output terminal of the temperature sensor 17 is connected to the temperature signal input terminal of the central controller 18, the driving signal output terminal of the central controller 18 is connected to the first motor 2 and the second motor 15, respectively, the pressure signal output terminal of the pressure sensor 19 is connected to the pressure signal input terminal of the central controller 18, the pneumatic signal output terminal of the central controller 18 is connected to the air pump 5, and the electromagnetic signal output terminal of the central controller 18 is connected to the electromagnetic control valve 8;

this embodiment, adopt temperature sensor to carry out real-time control to the inside temperature of electric cabinet, if the temperature that records is higher, control No. one motor and No. two motors through central controller, improve radiating effect, still adopt pressure sensor to carry out the measurement of quality to the server of different models, and through the state of central controller control air pump and solenoid electric valve, control the atmospheric pressure that has the pole chamber of two cylinders, the realization is to the automatic control of shock attenuation intensity, the degree of automation is improved, the installation is simpler.

The fifth concrete implementation mode: the present embodiment is described with reference to fig. 1 and 2, and is a further limitation to the electric cabinet according to the first embodiment, in which two motors 2 on the top of the housing 3 are disposed on the same horizontal line.

The sixth specific implementation mode: the present embodiment is described with reference to fig. 1 and fig. 2, and is a further limitation to the electric cabinet according to the first embodiment, in the electric cabinet for automatically adjusting the shock absorption of the server according to the present embodiment, four corners of the upper surface of the tray 4 are respectively provided with an expansion link, and the top of each expansion link is provided with a stop block;

this embodiment adopts the upper surface four corners department of tray 4 to be equipped with a telescopic link respectively, and the top of telescopic link is equipped with a dog, realizes fixing the not server of co-altitude, prevents that the server from taking place the phenomenon of drunkenness when the electric cabinet removes.

The seventh embodiment: the present embodiment is described with reference to fig. 1 and fig. 2, and the present embodiment is a further limitation to the electric cabinet according to the sixth embodiment, in the electric cabinet for automatically adjusting the shock absorption of the server according to the present embodiment, a layer of anti-slip glue is disposed on the bottom surface of the stopper;

in the specific embodiment, the bottom surface of the stop block is provided with the layer of anti-slip glue, so that the server is prevented from slipping.

The specific implementation mode is eight: the present embodiment is described with reference to fig. 1 and fig. 2, and the present embodiment is a further limitation to the electric cabinet according to the fifth embodiment, in the electric cabinet for automatically adjusting the shock absorption of the server according to the present embodiment, the four corners of the bottom surface of the housing 3 are respectively provided with the supporting pulleys 6;

in the embodiment, the supporting pulleys 6 are arranged at the four corners of the bottom surface of the shell 3, so that the electric cabinet can be conveniently moved.

The specific implementation method nine: the present embodiment is described with reference to fig. 1 and 2, and the present embodiment is a further limitation of the electric cabinet according to the eighth embodiment, in the electric cabinet for automatically adjusting the damping of the server according to the present embodiment, a layer of rubber is disposed on the outer surface of the pulley in the supporting pulley 6;

in the embodiment, a layer of rubber is arranged on the outer surface of the pulley in the supporting pulley 6, so that the phenomenon of skidding on a slippery road surface is prevented.

The detailed implementation mode is ten: the present embodiment is described with reference to fig. 1 and fig. 2, and is a further limitation to the electric cabinet according to the eighth embodiment, in the electric cabinet for automatically adjusting the shock absorption of the server according to the present embodiment, a dust screen is embedded in the ventilation openings on the other end surface of the housing 3, and the axial direction of each ventilation opening is coaxial with the axis of the second motor 15;

this embodiment, the inside dust screen that has inlayed of vent that adopts another terminal surface of casing 3 prevents that the dust from entering into inside the electric cabinet, utilizes the axial of every vent and the coaxial setting of No. two motor 15's axis, forms an air exhaust channel, can discharge the steam in the electric cabinet fast, improves the cooling effect.

The concrete implementation mode eleven: the present embodiment is described with reference to fig. 1 and 2, and is a further limitation of the electric cabinet according to the first embodiment, and the central controller 18 is a PLC controller in the electric cabinet for automatically adjusting the shock absorption of the server according to the present embodiment.

Principle of operation

When the server is used, a worker pulls the push door open, the server is longitudinally inserted into the tray 4, the stop blocks on the top ends of the telescopic rods at the four corners of the tray 4 are used for preventing the server from moving left and right during transportation, and the pressure sensor 19 on the upper surface of the tray 4 is used for measuring the quality of the server;

Claims

1. The utility model provides an automatic adjust shock-absorbing electric cabinet of server which characterized in that: the device comprises a first blade (1), a first motor (2), a shell (3), a tray (4), an air pump (5), a first connecting rod (7), an electromagnetic control valve (8), a first air cylinder (9), an air pipe (10), a second air cylinder (11), an auxiliary damping component (12), a baffle (13), a second connecting rod (14), a second motor (15), a second blade (16), a temperature sensor (17), a central controller (18) and a pressure sensor (19);

the shell (3) is cuboid, the top of the shell (3) is provided with two first motors (2), the output shaft of each first motor (2) penetrates through the top of the shell (3) and is connected with a first blade (1), the middle of the top end of the shell (3) is provided with a central controller (18), one end face of the shell (3) is provided with two second motors (15), the output shaft of each second motor (15) penetrates through the top of the shell (3) and is connected with a second blade (16), the other end face of the shell (3) is provided with two ventilation openings, the side face of the shell (3) is provided with a rectangular through hole, the edge of the through hole is hinged with one end of a sliding door, a baffle plate (13) is arranged below the inside of the shell (3), the center of the baffle plate (13) is provided with a rectangular through hole, the center of the bottom face inside the shell (3) is provided with a first cylinder (9) and a second cylinder, the first air cylinder (9) and the second air cylinder (11) are arranged oppositely, a connecting seat is arranged at the center of the bottom surface of the tray (4), one end of a first connecting rod (7) is hinged with a piston rod of the first air cylinder (9), the other end of the first connecting rod (7) is hinged with the connecting seat at the bottom surface of the tray (4), one end of a second connecting rod (14) is hinged with a piston rod of the second air cylinder (11), the other end of the second connecting rod (14) is hinged with the connecting seat at the bottom surface of the tray (4), the tray (4) is arranged in a rectangular through hole of the baffle plate (13), an air inlet pipe and an air outlet pipe are uniformly arranged on the outer surface of a rod cavity of the first air cylinder (9), an electromagnetic control valve (8) is arranged on the air outlet pipe of the first air cylinder (9) and the second air cylinder (11), an air pump (5) is arranged at one end of the inner bottom surface of the shell (3), the bottom that casing (3) was passed to the intake pipe of a cylinder (9) is connected with the one end of trachea (10), the other end of trachea (10) passes the bottom of casing (3) and is connected with the output of air pump (5), the bottom surface of casing (3) is passed to the intake pipe of No. two cylinders (11), with tracheal branch connection, the inside bottom surface four corners department of casing (3) is equipped with the arch respectively, bellied upper surface center department is equipped with the through-hole, inside supplementary damper assembly (12) that is equipped with of through-hole, the top of every supplementary damper assembly (12) and the bottom surface fixed connection of tray (4), the both ends at the upper surface middle part of tray (4) are equipped with a pressure sensor (19) respectively, be equipped with a temperature sensor (17) on the inner wall of casing (3).

2. The electric cabinet for automatically adjusting the shock absorption of the server according to claim 1, wherein: and a circular truncated cone-shaped boss is arranged at the top end of each protrusion.

3. The electric cabinet for automatically adjusting the shock absorption of the server according to claim 1, wherein: the auxiliary damping assembly (12) comprises a T-shaped supporting rod (12-1), a spring (12-2) and an end cover (12-3), the small-diameter end of the T-shaped supporting rod (12-1) penetrates through a through hole in a bulge on the bottom surface inside the shell (3) and is fixedly connected with the bottom surface of the tray (4), the end cover (12-3) is arranged at the through hole on the bottom surface of the shell (3), the end cover (12-3) is connected with the bottom surface of the shell (3) through a bolt, and the spring (12-2) is arranged between the T-shaped supporting rod (12-1) and the end cover (12-3).

4. The electric cabinet for automatically adjusting the shock absorption of the server according to claim 1, wherein: the temperature signal output end of the temperature sensor (17) is connected with the temperature signal input end of the central controller (18), the driving signal output end of the central controller (18) is respectively connected with the first motor (2) and the second motor (15), the pressure signal output end of the pressure sensor (19) is connected with the pressure signal input end of the central controller (18), the pneumatic signal output end of the central controller (18) is connected with the air pump (5), and the electromagnetic signal output end of the central controller (18) is connected with the electromagnetic control valve (8).

5. The electric cabinet for automatically adjusting the shock absorption of the server according to claim 1, wherein: two motors (2) on the top of the shell (3) are arranged on the same horizontal line.

6. The electric cabinet for automatically adjusting the shock absorption of the server according to claim 1, wherein: the four corners of the upper surface of the tray (4) are respectively provided with a telescopic rod, and the top of each telescopic rod is provided with a stop block.

7. The electric cabinet for automatically adjusting the shock absorption of the server according to claim 6, wherein: the bottom surface of the stop block is provided with a layer of anti-slip glue.

8. The electric cabinet for automatically adjusting the shock absorption of the server according to claim 5, wherein: and supporting pulleys (6) are respectively arranged at the four corners of the bottom surface of the shell (3).

9. The electric cabinet for automatically adjusting the shock absorption of the server according to claim 8, wherein: the outer surface of the pulley in the supporting pulley (6) is provided with a layer of rubber.

10. The electric cabinet for automatically adjusting the shock absorption of the server according to claim 8, wherein: the ventilation openings on the other end face of the shell (3) are internally embedded with dust screens, and the axial direction of each ventilation opening is coaxial with the axis of the second motor (15).