CN111741662A - Computer lab environmental monitoring equipment - Google Patents

Abstract

The invention discloses a machine room environment monitoring device which comprises a machine room shell and a monitoring device, wherein a baffle sliding groove is formed in the machine room shell, an installation baffle is arranged inside the baffle sliding groove, a threading round hole is formed in the right side surface of the installation baffle, a round hole anti-abrasion layer is arranged inside the threading round hole, the monitoring device is arranged below the right side inside the machine room shell, the monitoring device comprises a temperature sensor, a display panel and a PLC (programmable logic controller), and an insulating layer is arranged around the outside of the monitoring device. The installation baffle is arranged, so that mutual interference among parts in the equipment can be prevented, the performance stability of the equipment is influenced, the position of the installation baffle can be adjusted through the baffle sliding groove, the threading round holes are formed to facilitate connection among the parts, and the round hole abrasion-proof layer prevents a lead wire connected in the equipment from being damaged due to larger friction when the lead wire passes through the threading round holes, so that the service life of the equipment is influenced.

Description

Computer lab environmental monitoring equipment

Technical Field

The invention relates to the technical field of environment monitoring equipment, in particular to a machine room environment monitoring device.

Background

The computer room environment monitoring system is a computer network which comprehensively utilizes computer network technology, database technology, communication technology, automatic control technology, novel sensing technology and the like, provides a technical means which is based on computer technology and based on centralized management monitoring mode, is automatic, intelligent and efficient, and is mainly used for monitoring equipment such as computer room power equipment and environmental equipment.

The existing machine room environment monitoring equipment has the problems of poor heat dissipation performance, poor insulation performance, large internal interference of the equipment and poor stability of the equipment, can not well meet the use requirements of people, and carries out technical innovation on the basis of the existing monitoring equipment aiming at the above situation.

Disclosure of Invention

The invention aims to provide machine room environment monitoring equipment, and aims to solve the problems that the existing machine room environment monitoring equipment in the background art is poor in heat dissipation performance and insulativity, large in interference inside the equipment and poor in stability, and cannot well meet the use requirements of people.

In order to achieve the purpose, the invention provides the following technical scheme: a machine room environment monitoring device comprises a machine room shell and a monitoring device, wherein a baffle sliding groove is arranged in the machine room shell, an installation baffle is arranged inside the baffle sliding groove, a threading round hole is formed in the right side surface of the installation baffle, a round hole anti-abrasion layer is arranged inside the threading round hole, heat dissipation fans are arranged on the left side and the right side of the inside of the machine room shell, an air dissipation net is arranged on the outer sides of the heat dissipation fans, the monitoring device is arranged below the right side of the inside of the machine room shell, the monitoring device comprises a temperature sensor, a display panel and a PLC (programmable logic controller), the display panel is arranged on the left side of the temperature sensor, the PLC is arranged below the display panel, an insulating layer is arranged around the outside of the monitoring device, an anti-collision buffer block is arranged outside the machine room shell, and an anti-collision plate is connected, the middle of the anti-collision plate is provided with a buffer spring, and the upper end face of the monitoring device is provided with a heat dissipation window.

Preferably, a sliding structure is formed between the mounting baffle and the baffle sliding groove, and the mounting baffle is parallel to the machine room shell in the vertical direction.

Preferably, wherein, constitute the intercommunication structure between threading round hole and the installation baffle, and closely laminate between round hole abrasionproof layer and the threading round hole.

Preferably, the air distribution net forms a communication structure with the machine room shell through the heat dissipation fan, and the air distribution net is a hollow net structure.

Preferably, the temperature sensor is electrically connected with the PLC controller through a wire, and the temperature sensor is fixedly connected with the device housing.

Preferably, the insulating layer is matched with the external dimension of the monitoring device, and the insulating layer is in adhesive connection with the monitoring device.

Preferably, the buffer spring is elastically connected with the anti-collision plate.

Preferably, the machine room casing is provided with a plurality of auxiliary ventilation assemblies, the rear side plate of the machine room casing is provided with auxiliary holes corresponding to the auxiliary ventilation assemblies, the auxiliary ventilation assembly comprises a ventilation shell, a ventilation motor, a dust blocking baffle and a plurality of additional holding blocks, an opening is arranged at the right end of the ventilation shell, an annular groove is arranged in the opening, a plurality of first clamping parts are arranged on the inner annular wall of the annular groove, the first clamping part comprises a first arc-shaped abutting plate, a first abutting pipe, a first abutting column and a first abutting spring, the first abutting pipe is arranged on the inner annular wall of the annular groove, the first abutting spring is arranged in the first abutting pipe and connected with the inner end of the first abutting column, the outer end of the first abutting column is connected with the first arc abutting plates, and the ventilation motor is arranged among the first arc abutting plates; the left inner wall of the annular groove is provided with a plurality of second clamping portions, each second clamping portion comprises a second arc abutting plate, a second abutting pipe, a second abutting column and a second abutting spring, the second abutting pipe is arranged on the left inner wall of the annular groove, the second abutting spring is arranged in the second abutting pipe and connected with the inner end of the second abutting column, the outer end of the second abutting column is connected with the second arc abutting plate, the second arc abutting plates are connected with the left end of the ventilation motor, the opening is provided with a notch groove, the notch groove is internally provided with a threaded hole, each clamping block comprises a flat block and a vertical block, the flat block corresponds to the notch groove, the flat block is internally provided with a pressure hole, the pressure hole is internally provided with a pressure spring, the flat block is connected with the threaded hole through a screw rod, and one end of the screw rod penetrates through the pressure hole, The pressure spring is screwed into the threaded hole, the vertical block is arranged at the right end of the horizontal block, and the dust blocking barrier is arranged among the vertical blocks.

Preferably, the method further comprises the following steps:

the solar energy device comprises a solar cell module, an electric power storage module, a water collecting tank, an LED lamp and a plurality of water storage plates, wherein the solar cell module, the LED lamp and the water collecting tank are arranged on the upper end surface of the machine room shell, the electric power storage module is arranged in the machine room shell, the plurality of water storage plates are connected with the anti-collision plate through two connecting seats, each connecting seat comprises a seat plate body and a plurality of third clamping parts, a water supply part electrically connected with the electric power storage module is further arranged on the machine room shell, the water supply part is positioned on the upper end surface of the machine room shell and is communicated with the water storage plates through a first guide pipe, the water supply part is connected with an atomization part through a second guide pipe, the water collecting tank is communicated with the water storage plates through a third guide pipe, the atomization part is arranged on one side of the water collecting tank and is communicated with the LED lamp through an atomization nozzle, and the atomization nozzle is arranged on the, an outer tube is arranged outside the power storage module, and the second conduit is wound on the outer tube.

Preferably, the LED lamp includes an outer lamp housing, an inner lamp holder, a body, and a lamp panel, the inner lamp holder is disposed in the outer lamp housing, the lamp panel is disposed at a lower end of the outer lamp housing, the body is disposed on the inner lamp holder and faces the lamp panel, the outer lamp housing is provided with the atomizing nozzle, the outer lamp housing is further provided with a plurality of drain holes, and the drain holes are close to the lamp panel and drain water obliquely downward.

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

1. the installation baffle is arranged, so that mutual interference among parts in the equipment can be prevented, the performance stability of the equipment is influenced, the position of the installation baffle can be adjusted through the baffle sliding groove, the threading round holes are formed to facilitate connection among the parts, and the round hole abrasion-proof layer prevents a lead wire connected in the equipment from being damaged due to larger friction when the lead wire passes through the threading round holes, so that the service life of the equipment is influenced.

2. The heat dissipation fan is arranged, so that the inside of the machine room shell can be dissipated, internal parts are prevented from being damaged due to overhigh temperature, the heat dissipation air network is convenient for discharging hot air, the temperature sensor is arranged, the temperature inside the machine room shell can be detected, the opening of the heat dissipation fan can be controlled through the connection of the PLC and the heat dissipation fan, and the automatic heat dissipation of the machine room shell is convenient to realize.

3. The anti-collision device is provided with the insulating layer to prevent the machine room shell from being interfered by electricity in the machine room, so that the performance stability of the whole device is influenced, the anti-collision plate is arranged to prevent the machine room shell from being impacted by the outside and damage internal parts, and the buffer spring and the anti-collision buffer block can generate a certain buffer effect when the anti-collision plate is impacted.

Drawings

FIG. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic view of the construction of the mounting baffle of the present invention;

FIG. 4 is a schematic diagram of the working flow of the temperature sensor according to the present invention;

FIG. 5 is a schematic view of the construction of the vent assembly of the present invention;

FIG. 6 is a schematic view of a first clip portion according to the present invention;

FIG. 7 is a schematic structural view of a second clamping portion of the present invention;

FIG. 8 is a right side view of the second clip portion of the present invention;

FIG. 9 is a schematic structural view of a horizontal block of the present invention;

FIG. 10 is a schematic view of an LED lamp according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 4, the present invention provides a technical solution: a machine room environment monitoring device comprises a machine room shell 1 and a monitoring device 14, wherein baffle sliding grooves 11 are formed in the upper end face and the lower end face of the interior of the machine room shell 1, installation baffles 10 are arranged in the baffle sliding grooves 11, a sliding structure is formed between the installation baffles 10 and the baffle sliding grooves 11, the installation baffles 10 are parallel to the vertical direction of the machine room shell 1, the installation baffles 10 can prevent mutual interference between parts in the device, so that the performance stability of the device is influenced, the positions of the installation baffles 10 can be adjusted by the baffle sliding grooves 11, threading round holes 16 are formed in the right side surface of the installation baffles 10, round hole abrasion-proof layers 15 are arranged in the threading round holes 16, a communicating structure is formed between the threading round holes 16 and the installation baffles 10, the round hole abrasion-proof layers 15 are tightly attached to the threading round holes 16, and the threading round holes 16 are arranged to facilitate connection between the, the round hole abrasion-proof layer 15 prevents the wires connected inside from generating larger friction when passing through the threading round hole 16, so that the wires are damaged, and the service life of the equipment is influenced;

the left side and the right side of the interior of the machine room shell 1 are both provided with the heat dissipation fans 2, the outer sides of the heat dissipation fans 2 are provided with the air dissipation network 3, the air dissipation network 3 forms a communicating structure with the machine room shell 1 through the heat dissipation fans 2, the air dissipation network 3 is of a hollow net structure, the heat dissipation fans 2 are arranged to dissipate heat inside the machine room shell 1, internal parts are prevented from being damaged due to overhigh temperature, the air dissipation network 3 facilitates the discharge of hot air, the monitoring device 14 is arranged below the right side of the interior of the machine room shell 1, the monitoring device 14 comprises a temperature sensor 7, a display panel 8 and a PLC (programmable logic controller) controller 9, the display panel 8 is arranged on the left side of the temperature sensor 7, the PLC controller 9 is arranged below the display panel 8, the temperature sensor 7 is electrically connected with the PLC controller 9 through a lead, a probe of the temperature sensor 7 extends into the machine room shell 1, the temperature sensor 7 is arranged to detect the temperature inside, the opening of the heat dissipation fan 2 can be controlled by connecting the PLC 9 with the heat dissipation fan 2, so that the automatic heat dissipation of the machine room shell 1 is realized conveniently;

an insulating layer 13 is arranged around the outer part of the monitoring device 14, the insulating layer 13 is matched with the monitoring device 14 in shape and size, the insulating layer 13 is in adhesive connection with the machine room shell 1, the insulating layer 13 is arranged to prevent the monitoring device 14 from being electrically interfered in the machine room, so that the performance stability of the whole equipment is influenced, and the upper end surface of the monitoring device 14 is provided with a heat dissipation window 12 to facilitate the heat dissipation of the monitoring device 14;

the outside of computer lab casing 1 is provided with anticollision buffer block 4, and the outside of anticollision buffer block 4 is connected with anticollision board 5, the centre of anticollision board 5 is provided with buffer spring 6, be elastic connection between buffer spring 6 and the anticollision board 5, be provided with anticollision board 5 and can prevent that computer lab casing 1 from receiving outside striking, cause the damage to inside part, buffer spring 6 and anticollision buffer block 4 can produce certain cushioning effect when anticollision board 5 takes place the striking.

The working principle is as follows: when the machine room environment monitoring equipment is used, firstly, the mounting baffle 10 is placed in the baffle sliding groove 11, the parts in the equipment are mounted and connected through the threading round hole 16, the round hole anti-abrasion layer 15 plays a certain anti-abrasion role on a connecting lead, after the equipment is mounted, the PLC 9 below the display panel 8 is started, the temperature in the machine room shell 1 can be detected through the temperature sensor 7 with the model of PT100, the detected signal can be transmitted to the PLC 9 through the lead, the PLC 9 can display the detected signal on the display panel 8 through processing, thus the temperature in the machine room shell 1 can be detected, when the internal temperature is detected to be overhigh, the PLC 9 is connected with the heat dissipation fan 2 through the lead, thereby the opening of the heat dissipation fan 2 can be controlled, the heat is dissipated through the air dissipation net 3, and thus the heat dissipation of the machine room shell 1 can be realized, insulating layer 13 can prevent that equipment from receiving the interference of outside electrical property, and anticollision board 5 can prevent to cause the damage to the part of computer lab casing 1 inside when computer lab casing 1 takes place the striking, and anticollision buffer block 4 and buffer spring 6 can play certain cushioning effect to anticollision board 5, and equipment display window 12 is convenient for 14 inside heat dissipations of monitoring devices, and this is exactly this computer lab environmental monitoring equipment's theory of operation.

As shown in fig. 1, 5-10, further, a plurality of auxiliary ventilation assemblies 20 are provided in the machine room housing 1 in the machine room environment monitoring device of the present invention, an auxiliary hole corresponding to the auxiliary ventilation assembly 20 is provided on a rear side plate of the machine room housing 1, the auxiliary ventilation assembly 20 includes a ventilation shell 201, a ventilation motor 202, a dust blocking barrier 203, and a plurality of holding blocks, an opening is provided at a right end of the ventilation shell 201, an annular groove 205 is provided in the opening, a plurality of first clamping portions 206 are provided on an inner annular wall of the annular groove 205, each first clamping portion 206 includes a first arc abutting plate 207, a first abutting pipe 208, a first abutting column 209, and a first abutting spring 210, the first abutting pipe 208 is provided on an inner annular wall of the annular groove 205, the first abutting spring 210 is provided in the first abutting pipe 208 and connected to an inner end 209 of the first abutting column, the outer end of the first abutting column 209 is connected with the first arc abutting plates 207, and the ventilation motor 202 is arranged among the first arc abutting plates 207; a plurality of second clamping portions 211 are arranged on the left inner wall of the annular groove 205, each second clamping portion 211 comprises a second arc-shaped abutting plate 212, a second abutting pipe 213, a second abutting column 214 and a second abutting spring 215, the second abutting pipe 213 is arranged on the left inner wall of the annular groove 205, the second abutting spring 215 is arranged in the second abutting pipe 213 and connected with the inner end of the second abutting column 214, the outer end of the second abutting column 214 is connected with the second arc-shaped abutting plate 212, the plurality of second arc-shaped abutting plates 212 are connected with the left end of the ventilation motor 202, a notch groove 216 is arranged on the opening, a threaded hole 217 is arranged in the notch groove 216, the holding block comprises a flat block 218 and a vertical block 219, the flat block 218 corresponds to the notch groove 217, a pressure hole 220 is arranged in the flat block 218, a pressure spring 221 is arranged in the pressure hole 220, and the flat block 218 is connected with the threaded hole 217 through a screw 222, one end of the screw rod 222 passes through the press hole 220 and the compression spring 221 and is screwed into the threaded hole 217, the vertical block 219 is arranged at the right end of the horizontal block 218, and the dust blocking barrier 203 is arranged among the vertical blocks 219.

The working principle and the beneficial effects of the technical scheme are as follows: in order to further dissipate heat of the machine room shell 1, an auxiliary ventilation assembly 20 is arranged in the machine room shell 1, a ventilation motor 202 is controlled by a PLC (programmable logic controller) 9, when the ventilation motor 202 is installed in the ventilation shell 201, the peripheral wall of the ventilation motor 202 presses a first clamping part 206, specifically, a first arc-shaped abutting plate 207 in the first clamping part 206 is supported by a first abutting column 209, and the first abutting column 209 is supported by a first abutting spring 210 in a first abutting pipe 208, so that the ventilation motor 202 is fixed among a plurality of first clamping parts 206, and thus the ventilation motor 202 can be supported and damped by the designed plurality of first clamping parts 206 during operation; further, the plurality of second clamping portions 211 act on the ventilation motor 202 at the right end thereof, specifically, the second arc-shaped abutting plate 212 in the second clamping portion 211 is supported by the second abutting column 214, and the second abutting column 214 is supported by the second abutting spring 215 in the second abutting pipe 213, so that the ventilation motor 202 is fixed between the plurality of second clamping portions 211 and the dust-blocking barrier 203, and the ventilation motor 202 is supported and damped in the transverse direction;

the ventilation motor 202 drives the blades to rotate, air flow outside the machine room shell 1 is sucked into the ventilation shell 201, heat in the machine room shell 1 is blown through the air outlet of the ventilation shell 201, the flowing speed of the heat is accelerated by matching with the heat dissipation fan 2, and the heat is discharged outside the machine room shell 1 through the heat dissipation fan 2 and the air dissipation net 3; the dust-proof barrier 203 plays a role in intercepting and filtering air, wherein the additional holding blocks comprise a horizontal block 218 and a vertical block 219, and the multiple additional holding blocks can conveniently mount and dismount the dust-proof barrier 203 through the structural design of a screw 222, a pressure hole 220, a pressure spring 221 and the like, so that a new dust-proof barrier 203 can be conveniently replaced; moreover, the first clamping part 206 and the second clamping part 211 can be designed to be provided with the ventilation motors 203 with different sizes, so that the practicability of the auxiliary ventilation assembly 20 is further increased.

Further, the equipment room environment monitoring device of the present invention further comprises:

a solar device, the solar device comprising a solar cell module 31, an electric power storage module 32, a water collection tank 33, an LED lamp 30 and a plurality of water storage plates 34, the solar cell module 31, the LED lamp 30 and the water collection tank 33 are arranged on the upper end surface of the machine room shell 1, the electric power storage module 32 is arranged in the machine room shell 1, the plurality of water storage plates 34 are connected with the anti-collision plate 5 through two connecting seats 35, the connecting seats 35 comprise seat bodies 351 and a plurality of telescopic supporting rods 352, the machine room shell 1 is further provided with a water supply part 36 electrically connected with the electric power storage module 32, the water supply part 36 is arranged on the upper end surface of the machine room shell 1 and is communicated with the water storage plates 34 through a first conduit, the second conduit 40 is connected with an atomization part 37, the water collection tank is communicated with the water storage plates through a third conduit, the atomization part 37 is arranged on one side of the water collection tank 33, and is communicated with the LED lamp 30 through an atomizing nozzle 38, the atomizing nozzle 38 is disposed on the LED lamp 30, an outer tube 39 is disposed outside the power storage module 32, and the second conduit 40 is wound around the outer tube 39.

The working principle and the beneficial effects of the technical scheme are as follows: since the auxiliary ventilation module 20 is disposed on the machine room housing 1 in the above-mentioned embodiment, and in order to supply power to the auxiliary ventilation module 20 and also in order that the machine room environment monitoring device of the present invention can utilize a solar power supply, a solar device is disposed on the machine room housing 1, wherein a solar cell module 31 and a water collecting tank 33 are disposed at the upper end of the machine room housing 1, an electric storage module 32 is disposed in the machine room housing 1 and near the upper end thereof, the solar cell module 31 converts solar energy into electric energy to be stored in the electric storage module 32, and the electric storage module 32 supplies power to other components; the left and right sides of the machine room shell 1 are provided with the water storage plates 34, and the water collection tank 33 is mainly used for collecting rainwater, so that a person skilled in the art can design a filtering component on the water collection tank 33 to filter large-particle impurities in the rainwater; the water collecting tank 33 is communicated with the water storage plate 34 through a third conduit, the water storage plate 34 further stores rainwater, and of course, the water storage plate 34 can be supplied with water from the outside; the water supply part 36 is communicated with the water storage plate 34 through a first conduit, water in the water storage plate 34 is supplied to the atomization part 37 through a second conduit 40, and then the atomization part 37 sprays fog to the LED lamp 30 through the atomization nozzle 38 to take away heat of the LED lamp 30, so that heat dissipation of the LED lamp 30 is facilitated, and the service life of the LED lamp 30 is prolonged; furthermore, an outer tube 39 is arranged outside the power storage module 32, and a second conduit 40 is wound on the outer tube 39, so that the second conduit 40 can also take away heat generated by the power storage module 32, and the heat dissipation effect is achieved on the power storage module 32;

because the water storage plate 34 is arranged in the machine room shell 1, the water storage plate 34 can be made of plastics, when an automobile collides with the water storage plate 34, the water storage plate 34 can effectively reduce the impact force and reduce the damage of the automobile and personnel; warning marks can be designed on the water storage plate 34, so that the warning device has an obvious warning effect on drivers, and traffic accidents and losses of vehicles can be effectively reduced.

Further, the LED lamp 30 includes an outer lamp housing 301, an inner lamp base 302, a body 303 and a lamp plate 304, the inner lamp base 302 is disposed in the outer lamp housing 301, the lamp plate 304 is disposed at a lower end of the outer lamp housing 301, the body 303 is disposed on the inner lamp base 302 and faces the lamp plate 304, the atomizing nozzle is disposed on the outer lamp housing 301, a plurality of water drainage holes 305 are further disposed on the outer lamp housing 301, and the water drainage holes 305 are close to the lamp plate 304 and drain water obliquely downward.

The working principle and the beneficial effects of the technical scheme are as follows: in order to facilitate heat dissipation of the LED lamp 30, the embodiment provides a structure of the LED lamp 30, specifically, the LED lamp 30 includes an outer lamp cover 301, an inner lamp base 302, a body 303, and a lamp plate 304, the inner lamp base 302 is in an arc shape that is bent upward and is made of an aluminum plate, so when the atomizing nozzle 38 sprays water vapor into the outer lamp cover 301, heat generated by the body 303 in the LED lamp 30 is conducted by the aluminum plate, and the heat further evaporates the water vapor and takes away the heat; moreover, after the water vapor is too much, the water vapor can be discharged through the water discharge hole 305 without affecting the LED lamp 30, so that the LED lamp 30 with the structure is used together with the atomization portion 37, the heat dissipation is convenient, and the service life is long.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The machine room environment monitoring equipment comprises a machine room shell (1) and a monitoring device (14), and is characterized in that a baffle sliding groove (11) is arranged in the machine room shell (1), an installation baffle (10) is arranged inside the baffle sliding groove (11), a threading round hole (16) is formed in the right side surface of the installation baffle (10), a round hole anti-abrasion layer (15) is arranged inside the threading round hole (16), heat dissipation fans (2) are arranged on the left side and the right side of the inside of the machine room shell (1), a heat dissipation air net (3) is arranged on the outer side of each heat dissipation fan (2), the monitoring device (14) is arranged below the right side of the inside of the machine room shell (1), the monitoring device (14) comprises a temperature sensor (7), a display panel (8) and a PLC (9), and the display panel (8) is arranged on the left side of the temperature sensor (7), the utility model discloses a monitoring device, including display panel (8), PLC controller (9), monitoring devices (14), insulating layer (13) are provided with around the outside of monitoring devices (8), the outside of computer lab casing (1) is provided with anticollision buffer block (4), and the outside of anticollision buffer block (4) is connected with crashproof board (5), the centre of crashproof board (5) is provided with buffer spring (6), monitoring devices (14) up end is provided with radiator window (12).

2. A machine room environment monitoring device according to claim 1, wherein a sliding structure is formed between the mounting baffle (10) and the baffle sliding chute (11), and the mounting baffle (10) and the machine room shell (1) are parallel to each other in the vertical direction.

3. The machine room environment monitoring equipment as claimed in claim 1, wherein a communication structure is formed between the threading round hole (16) and the mounting baffle (10), and the round hole wear-resistant layer (15) is tightly attached to the threading round hole (16).

4. The machine room environment monitoring equipment according to claim 1, wherein the air-dispersing net (3) forms a communicating structure with the machine room casing (1) through the heat-dispersing fan (2), and the air-dispersing net (3) is a hollow mesh structure.

5. The machine room environment monitoring equipment according to claim 1, wherein the temperature sensor (7) is electrically connected with the PLC (9) through a wire, and the temperature sensor (7) is fixedly connected with the machine room shell (1).

6. A machine room environment monitoring device according to claim 1, characterized in that the insulating layer (13) is matched with the monitoring device (14) in external dimensions, and the insulating layer (13) is in adhesive connection with the monitoring device (14).

7. A machine room environment monitoring device according to claim 1, characterized in that the buffer spring (6) is elastically connected with the anti-collision plate (5).

8. The machine room environment monitoring device according to claim 1, wherein the machine room casing (1) is provided with a plurality of auxiliary ventilation assemblies (20), an auxiliary hole corresponding to the auxiliary ventilation assembly (20) is formed in a rear side plate of the machine room casing (1), the auxiliary ventilation assembly (20) comprises a ventilation shell (201), a ventilation motor (202), a dust blocking barrier (203) and a plurality of supporting blocks, an opening is formed in a right end of the ventilation shell (201), an annular groove (205) is formed in the opening, a plurality of first clamping portions (206) are arranged on an inner annular wall of the annular groove (205), each first clamping portion (206) comprises a first arc-shaped abutting plate (207), a first abutting column (208), a first abutting column (209) and a first abutting spring (210), and the first abutting portion (208) is arranged on an inner annular wall of the annular groove (205), the first abutting spring (210) is arranged in the first abutting pipe (208) and connected with the inner end of the first abutting column (209), the outer end of the first abutting column (209) is connected with the first arc-shaped abutting plate (207), and the ventilation motor (202) is arranged among the first arc-shaped abutting plates (207); a plurality of second clamping parts (211) are arranged on the left inner wall of the annular groove (205), each second clamping part (211) comprises a second arc-shaped abutting plate (212), a second abutting pipe (213), a second abutting column (214) and a second abutting spring (215), each second abutting pipe (213) is arranged on the left inner wall of the annular groove (205), each second abutting spring (215) is arranged in each second abutting pipe (213) and connected with the inner end of the corresponding second abutting column (214), the outer end of each second abutting column (214) is connected with the corresponding second arc-shaped abutting plate (212), the plurality of second arc-shaped abutting plates (212) are connected with the left end of the corresponding ventilation motor (202), each opening is provided with a notch groove (216), each notch groove (216) is internally provided with a threaded hole (217), each clamping block comprises a flat block (218) and a vertical block (219), and each flat block (218) corresponds to each notch groove (217), and a pressure hole (220) is arranged in the horizontal block (218), a pressure spring (221) is arranged in the pressure hole (220), the horizontal block (218) is connected with the threaded hole (217) through a screw rod (222), one end of the screw rod (222) penetrates through the pressure hole (220) and the pressure spring (221) and is screwed into the threaded hole (217), the vertical block (219) is arranged at the right end of the horizontal block (218), and the dust blocking barrier (203) is arranged among the vertical blocks (219).

9. The machine room environment monitoring apparatus according to claim 1 or 8, further comprising:

solar device, solar device includes solar cell module (31), electric power storage module (32), header tank (33), LED lamp (30) and a plurality of water storage plate (34), solar cell module (31) LED lamp (30) header tank (33) set up computer lab casing (1) up end, electric power storage module (32) set up in computer lab casing (1), it is a plurality of water storage plate (34) through two connecting seats (35) with crashproof board (5) are connected, connecting seat (35) include plate body (351), a plurality of flexible bracing piece (352), still be provided with on computer lab casing (1) with the water supply portion (36) that electric power storage module (32) are connected, water supply portion (36) are located computer lab casing (1) up end to through first pipe with water storage plate (34) intercommunication, Second pipe (40) are connected with atomizing portion (37), the header tank passes through third pipe and water storage plate intercommunication, atomizing portion (37) set up one side of header tank (33) to through atomizing mouth (38) with LED lamp (30) intercommunication, atomizing mouth (38) set up on LED lamp (30), the outside of electric power storage module (32) is provided with outer tube (39), second pipe (40) are around establishing on outer tube (39).

10. A machine room environment monitoring device according to claim 9, wherein the LED lamp (30) comprises an outer lamp housing (301), an inner lamp holder (302), a body (303) and a lamp panel (304), the inner lamp holder (302) is disposed in the outer lamp housing (301), the lamp panel (304) is disposed at the lower end of the outer lamp housing (301), the body (303) is disposed on the inner lamp holder (302) and faces the lamp panel (304), the atomizing nozzle is disposed on the outer lamp housing (301), a plurality of drain holes (305) are further disposed on the outer lamp housing (301), and the drain holes (305) are close to the lamp panel (304) and drain water obliquely downward.

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