CN108093610B

CN108093610B - network terminal cooling system

Info

Publication number: CN108093610B
Application number: CN201711424706.0A
Authority: CN
Inventors: 李治
Original assignee: Chongqing Rui Zheng Technology Co Ltd
Current assignee: Chongqing Lizheng Technology Co.,Ltd.
Priority date: 2017-12-25
Filing date: 2017-12-25
Publication date: 2019-12-17
Anticipated expiration: 2037-12-25
Also published as: CN108093610A

Abstract

The application discloses a network terminal heat dissipation system, and relates to the field of cooling methods of structures or accessories. Including detection module, control module and execution module, execution module includes vent execution unit, detection module is including being used for receiving the temperature information of temperature sensor feedback and sending control module's temperature detecting element, control module is used for receiving temperature information, and control module is used for sending closing signal to vent execution unit when the temperature is less than preset temperature, and control module still is used for sending opening signal to vent execution unit when the temperature is higher than or equal to preset temperature, and vent execution unit is used for receiving closing signal and makes heat baffle block the heat dissipation frame, and vent execution unit still is used for receiving opening signal and makes heat baffle leave the heat dissipation frame. The technical problem that the installation box in the prior art is poor in heat dissipation effect is solved, and the scheme is suitable for heat dissipation of the network terminal used outdoors.

Description

Network terminal cooling system

Technical Field

the invention relates to the field of cooling methods of structures or accessories, in particular to a network terminal cooling system.

Background

The network terminal is a terminal device capable of connecting a network, such devices all need to work in a live mode, and therefore cannot work in a high-temperature or humid environment for a long time, however, part of the network terminal needs to be placed outdoors when being put into use, meanwhile, the network terminal is placed in a network terminal installation box in order to prevent the network terminal from being stolen by people, the network terminal installation box installed outdoors is in hot air for a long time when the weather is hot, at the moment, the network terminal placed in the network terminal installation box is prone to failure under the condition that the self heat dissipation speed is reduced, the network terminal is seriously damaged, maintenance personnel need to manually cool the network terminal to maintain normal work for a long time, and for example, the network speed can be slowed down under the condition that the temperature of a router is too high.

disclosure of Invention

the invention aims to provide a network terminal heat dissipation system to solve the technical problem that an installation box in the prior art is poor in heat dissipation effect.

the network terminal heat dissipation system comprises a cabinet door, a cabinet body, a detection module arranged on the cabinet door, a control module and an execution module arranged on the cabinet body, wherein the cabinet door can completely cover the cabinet body, a connecting strip is arranged between the cabinet door and the cabinet body, a horizontal sliding groove is arranged on the side wall of a corner of the cabinet body, the cabinet door is hinged with the connecting strip, a plurality of heat dissipation frames and heat dissipation holes are arranged on the cabinet door, the heat dissipation holes are also arranged on the side surface of the cabinet body and are arranged between the heat dissipation frames, a partition plate and a plurality of limiting strips are arranged on the cabinet body, the limiting strips are L-shaped, elastic buckling pieces are arranged on the limiting strips, the heat dissipation holes can be blocked when the cabinet door is closed, and a humidity sensor, an air speed sensor and a heat dissipation baffle plate capable of;

The execution module comprises a vent execution unit, the detection module comprises a temperature detection unit for receiving temperature information fed back by the temperature sensor and sending the temperature information to the control module, the control module is used for receiving the temperature information, the control module is used for sending a closing signal to the vent execution unit when the temperature is lower than the preset temperature, the control module is also used for sending an opening signal to the vent execution unit when the temperature is higher than or equal to the preset temperature, the vent execution unit is used for receiving the closing signal and enabling the heat dissipation baffle to block the heat dissipation frame, and the vent execution unit is also used for receiving the opening signal and enabling the heat dissipation baffle to leave the heat dissipation frame.

Put into the install bin at network terminal earlier before the system of this scheme of use, then place spacing in every network terminal's both sides, it keeps the level with the cabinet body to rotate the cabinet door, push the cabinet door and connecting strip to the cabinet body from the front of the cabinet body together, close the cabinet door after cabinet door and cabinet body contact, the elasticity cramp on the spacing strip passes the louvre on the cabinet door this moment, thereby make spacing fixed, network terminal between two spacing is also fixed at the cabinet internally, then the system controls heat dissipation baffle to open and dispels the heat when only the temperature is higher than or equal to and predetermines the temperature, at ordinary times the temperature is less than when predetermineeing the temperature and prevents dust through closing heat dissipation baffle, thereby avoid the dust to pile up and influence network terminal and external contact on network terminal and lead to network terminal heat dissipation badly.

after the connecting strips are arranged on the cabinet door, the cabinet door can be rotated to be parallel to the front surface of the cabinet body on the premise of not touching the limiting strips, so that the cabinet door and the connecting strips can be pushed to the cabinet body together from the direction vertical to the front surface of the cabinet body, and the cabinet door is pushed to the cabinet body from the front surface of the cabinet body to the back surface of the cabinet body, so that the limiting strips can be smoothly inserted into the heat dissipation holes, and the technical effect of fixing the limiting strips when the cabinet door is closed is; the sliding groove arranged on the cabinet body enables the cabinet door to keep a fixed direction when being pushed to the cabinet body; the arrangement of the heat dissipation frame increases the air circulation between the inside and the outside of the cabinet body, thereby enhancing the heat dissipation effect of the network terminal placed in the cabinet body; the heat dissipation holes are arranged between the heat dissipation frames, so that the limiting strips placed on the partition plates can be inserted into the heat dissipation holes; the limiting strip is arranged to be L-shaped, so that the limiting strip can limit the two directions of the side surface and the top surface of the network terminal; after the elastic buckle pieces are arranged on the limiting strips, the limiting strips can have fault tolerance when being fixed by the heat dissipation holes, and when the positions of the elastic buckle pieces and the heat dissipation holes cannot completely correspond, the elastic buckle pieces can also be inserted into the heat dissipation holes, so that the limiting strips are fixed;

the system in this scheme is through setting up on the execution module and the cooperation of detection module, under control module's control, when detection module tests the temperature and is higher than or equal to when predetermineeing the temperature, control module judges that the temperature at this moment can influence network terminal equipment and normally work, consequently open the radiating baffle and strengthen the radiating effect, when detection module detects the temperature and is less than when predetermineeing the temperature, utilize the louvre can satisfy the heat dissipation demand, close the radiating baffle this moment and avoid a large amount of dusts to fall on network terminal through the heat dissipation frame, influence network terminal and external heat exchange.

The cooperation that this scheme utilization set up spacing on the baffle and the louvre on the cabinet door makes and closes the unable removal of network terminal behind the cabinet door, thereby reach the effect of theftproof, then set up the heat dissipation frame on the basis that network terminal is fixed and dispel the heat, make network terminal abundant and the outdoor air contact of cabinet, reach the effect of cooling, utilize control module to make the heat radiation baffle only open when the temperature is high simultaneously, the closed cabinet body prevents that the dust from falling on network terminal's radiating effect under the low temperature state, thereby the installation box radiating effect among the prior art is poor technical problem has been solved.

Further, a pressure-sensitive sensor for detecting whether the cabinet door is closed is arranged on the cabinet door, a plurality of photosensitive sensors are arranged on the partition plate, an alarm is arranged on the cabinet body, the execution module further comprises an alarm unit, the detection module further comprises an anti-theft detection unit, the anti-theft detection unit is used for receiving a cabinet door opening signal or a cabinet door closing signal sent by the pressure-sensitive sensor and sending the cabinet door opening signal or the cabinet door closing signal to the control module, the anti-theft detection unit is also used for receiving an optical signal or an optical signal sent by each photosensitive sensor and sending the optical signal or the optical signal to the control module, the control module is used for recording the optical signal or the optical signal sent by each photosensitive sensor as a safety lock signal after receiving the cabinet door opening signal, and when the optical signal or the optical signal sent by each photosensitive sensor is different from the safety lock signal recorded before the cabinet door closing signal is, the alarm unit is used for enabling the alarm to give an alarm after receiving the alarm signal sent by the control module.

After setting up like this, when the staff opens the cabinet door and removes to the internal network equipment of cabinet, control module can not trigger the police dispatch newspaper, network equipment can cover partial photosensitive sensor and make photosensitive sensor can not receive the light signal, photosensitive sensor feeds back to the controller whether oneself receives the light signal, control module receives the light signal that has sent of theftproof detecting element and no light signal and records into the safety lock signal, the light signal that has fed back of photosensitive sensor or no light signal can not change the safety lock signal again when the cabinet door is closed, and when control module finds that the light signal that has fed back of photosensitive sensor or no light signal is different with the safety lock signal, judge that someone has taken away network terminal, thereby send alarm signal and make alarm unit report to the police.

Further, be equipped with humidity transducer and air velocity transducer on the cabinet body, detection module is including being used for receiving humidity information of humidity transducer feedback and sending to control module's humidity detecting element and receiving the air velocity information of air velocity transducer feedback and sending to control module's wind speed detecting element, control module is used for receiving humidity information and air velocity information, and control module still is used for sending opening signal to vent execution unit when humidity is higher than 40% and the wind speed is greater than 0.3m/s, and control module still is used for sending closing signal to vent execution unit when the temperature is less than preset temperature, humidity is higher than 40% and the wind speed is less than 0.3 m/s.

Even if the temperature is lower than 20 ℃ after the arrangement, the heat dissipation baffle is still opened to remove moisture, so that the service life of the network terminal is prevented from being shortened in a humid environment, and when the wind speed is less than 0.3m/s, natural wind cannot take away the moisture, and at the moment, the cabinet body is closed to prevent the moisture from entering the cabinet body to influence the network terminal.

further, the internal wall of cabinet is equipped with the stopper, when the stopper enables spacing in the space between the stopper, the elasticity cramp on the spacing can pass the louvre.

After the arrangement, the elastic piece on the limiting strip can accurately enter the heat dissipation hole when the door is closed by only putting the limiting strip into the gap between the limiting blocks by a worker.

further, the inner wall of the top of the cabinet body is a mirror surface.

After the arrangement, when the network terminal placed on the top layer partition board in the cabinet body is operated by a worker, the worker can check the network terminal through the top of the cabinet body without taking a ladder.

Furthermore, the clapboard is a metal plate with air holes.

After the arrangement, the bottom of the network terminal is also provided with a space for heat dissipation.

Furthermore, the partition plate is provided with anti-skid edge strips.

After the arrangement, the network terminal is placed on the partition board, and the network terminal cannot be pulled to the ground to be damaged when a line connected to the network terminal is accidentally pulled.

Drawings

Fig. 1 is a logic block diagram of a system of an embodiment of a network terminal heat dissipation system of the present invention;

Fig. 2 is a schematic perspective view of a hidden heat dissipation baffle of the network terminal heat dissipation system according to an embodiment of the present invention;

fig. 3 is a partially enlarged view of a portion I of fig. 2;

Fig. 4 is a front view of a device hiding heat dissipation baffle of an embodiment of the network terminal heat dissipation system of the present invention;

Fig. 5 is a partial enlarged view of a portion a of fig. 4;

fig. 6 is a perspective view of a cabinet door and a cabinet body of a device-hidden heat dissipation baffle of the network terminal heat dissipation system according to an embodiment of the present invention, which are kept horizontal;

Fig. 7 is a perspective view of a device of an embodiment of a network terminal heat dissipation system of the present invention;

Fig. 8 is a schematic perspective view of a network terminal heat dissipation installation box according to embodiment 2 of the present invention;

fig. 9 is a front view of a cooling pipe of embodiment 2 of the heat dissipation installation box of the network terminal of the present invention.

Detailed Description

The following is further detailed by the specific embodiments:

Reference numerals in the drawings of the specification include: the cabinet door comprises a cabinet door 1, a heat dissipation frame 2, heat dissipation holes 3, a cabinet body 4, a limiting strip 5, an elastic buckle piece 6, a partition plate 7, a heat dissipation baffle 8, a limiting block 9, an anti-skidding edge strip 10 and a connecting strip 11.

Example 1 is substantially as shown in figures 1 and 2 of the accompanying drawings:

the intelligent cabinet comprises a cabinet door 1, a detection module arranged on the cabinet door 1, a cabinet body 4, a control module and an execution module arranged on the cabinet body 4, wherein the cabinet door 1 can completely cover the cabinet body 4, a connecting strip 11 is arranged between the cabinet door 1 and the cabinet body 4, as shown in figure 3, a horizontal sliding groove is arranged on the side wall of a corner of the cabinet body 4, the cabinet door 1 is hinged with the connecting strip 11, a plurality of radiating frames 2 and radiating holes 3 are arranged on the cabinet door 1, the radiating frames 2 are also arranged on the side surface of the cabinet body 4, the radiating holes 3 are arranged between the radiating frames 2, as shown in figure 4, a partition plate 7 and two limiting strips 5 are arranged on the cabinet body 4, the partition plate 7 is an aluminum plate with cross-shaped air holes, anti-skid edge strips 10 are arranged on the partition plate 7, the limiting strips 5 have three specifications which are respectively 3cm high, 6cm high and 8, the limiting strip 5 is L-shaped, the limiting strip 5 is provided with an elastic buckle piece 6, the heat dissipation holes 3 can be blocked when the cabinet door 1 of the elastic buckle piece 6 is closed, as shown in the attached drawing 5, the inner wall of the cabinet body 4 is provided with a limiting block 9, the elastic buckle piece on the limiting strip 5 can penetrate through the heat dissipation holes 3 when the limiting block 9 enables the limiting strip 5 to be positioned in a gap between the limiting blocks 9, as shown in the attached drawing 7, the heat dissipation frame 2 is provided with a humidity sensor, a wind speed sensor and a heat dissipation baffle 8 capable of completely covering the heat dissipation frame 2;

The execution module comprises a vent execution unit and an alarm unit, the detection module comprises a temperature detection unit, a humidity detection unit and a wind speed detection unit, the temperature detection unit is used for receiving temperature information fed back by a temperature sensor and sending the temperature information to the control module, the humidity detection unit is used for receiving humidity information fed back by the humidity sensor and sending the humidity information to the control module, the wind speed detection unit is used for receiving wind speed information fed back by a wind speed sensor and sending the wind speed information to the control module, the control module is used for sending a closing signal to the vent execution unit when the temperature is lower than a preset temperature, the control module is also used for sending an opening signal to the vent execution unit when the temperature is higher than or equal to the preset temperature, the preset temperature in the embodiment is 25 ℃, the control module is also used for receiving the humidity information and the wind speed information, and the control module is also used for sending an opening signal to the vent execution unit when the humidity is higher than 40% and the, the control module is further used for sending a closing signal to the vent execution unit when the temperature is lower than the preset temperature, the humidity is higher than 40% and the wind speed is less than 0.3m/s, the vent execution unit is used for receiving the closing signal and enabling the heat dissipation baffle plate 8 to block the heat dissipation frame 2, and the vent execution unit is further used for receiving an opening signal and enabling the heat dissipation baffle plate 8 to leave the heat dissipation frame 2;

The detection module further comprises an anti-theft detection unit, the anti-theft detection unit is used for receiving cabinet door opening signals or cabinet door closing signals sent by the pressure sensitive sensors and sending the signals to the control module, the anti-theft detection unit is also used for receiving optical signals or non-optical signals sent by each photosensitive sensor and sending the signals to the control module, the control module is used for recording whether the optical signals or the non-optical signals are sent by each photosensitive sensor as safety lock signals after receiving the cabinet door opening signals, when the control module receives the cabinet door closing signals, the optical signals or the non-optical signals sent by each photosensitive sensor are different from the safety lock signals recorded before the cabinet door closing signals are received, then alarm signals are sent to the alarm unit, and the alarm unit is used for sending out an alarm after receiving the alarm signals sent by the control module.

Before the system of the scheme is used, the network terminals are firstly placed in the installation box, then the limiting strips 5 are placed on the two sides of each network terminal, as shown in the attached figure 6, the cabinet door 1 is rotated to keep horizontal with the cabinet body 4, then the cabinet door 1 and the connecting strip 11 are pushed to the cabinet body 4 from the front side of the cabinet body 4 together, the cabinet door 1 and the cabinet body 4 are contacted to close the cabinet door 1, at this time, the elastic buckle piece 6 on the limiting strip 5 penetrates through the heat dissipation hole 3 on the cabinet door 1, thereby fixing the limiting strips 5, fixing the network terminal between the two limiting strips 5 in the cabinet body 4, the system then controls the opening of the heat dissipation baffle 8 to dissipate heat only when the temperature is higher than or equal to the preset temperature, dustproof is carried out through closing heat-radiating baffle 8 when the temperature is less than preset temperature at ordinary times, thereby avoid the dust to pile up and influence network terminal and external contact on network terminal and lead to network terminal heat dissipation badly.

After the top of the cabinet body 4 is a mirror surface, when a worker operates a network terminal placed on the top layer partition 7 in the cabinet body 4, the worker can look up the network terminal through the top of the cabinet body 4 without taking a ladder, after the connecting strip 11 is arranged on the cabinet door 1, the cabinet door 1 can rotate to be parallel to the front side of the cabinet body 4 on the premise of not touching the limiting strip 5, so that the cabinet door 1 and the connecting strip 11 can be pushed to the cabinet body 4 from the direction vertical to the front side of the cabinet body 4 together, the cabinet door 1 is pushed to the cabinet body 4 along the direction from the front side of the cabinet body 4 to the back side of the cabinet body 4, the limiting strip 5 can be smoothly inserted into the heat dissipation hole 3, and the technical effect of fixing; the sliding groove arranged on the cabinet body 4 enables the cabinet door 1 to keep a fixed direction when being pushed to the cabinet body 4; the arrangement of the heat dissipation frame 2 increases the air circulation between the inside of the cabinet body 4 and the outside of the cabinet body 4, thereby enhancing the heat dissipation effect of the network terminal placed in the cabinet body 4; after the heat dissipation frame 2 is arranged, air in the cabinet body 4 can be more easily circulated, and the network terminal in the cabinet body 4 can be dissipated by utilizing natural wind; the heat dissipation holes 3 are arranged between the heat dissipation frames 2, so that the limiting strips 5 placed on the partition plates 7 can be inserted into the heat dissipation holes 3; the limiting strip 5 is arranged to be L-shaped, so that the limiting strip 5 can limit the two directions of the side surface and the top surface of the network terminal; after the elastic buckle pieces 6 are arranged on the limiting strips 5, the limiting strips 5 can have fault tolerance when being fixed by the heat dissipation holes 3, when the positions of the elastic buckle pieces 6 and the heat dissipation holes 3 cannot completely correspond, the elastic buckle pieces 6 can also be inserted into the heat dissipation holes 3, so that the limiting strips 5 are fixed, and after the limiting blocks 9 are arranged, a worker only needs to put the limiting strips 5 into gaps between the limiting blocks 9, so that elastic pieces on the limiting strips 5 can accurately enter the heat dissipation holes 3 when the door is closed;

Through set up pressure sensitive sensor on cabinet door 1, set up photosensitive sensor at baffle 7, after setting up like this, when the staff opens cabinet door 1 and removes the network equipment in the cabinet body 4, control module can not trigger the police dispatch newspaper, network equipment can cover some photosensitive sensor and make photosensitive sensor can not receive the light signal, photosensitive sensor feeds back to the controller whether oneself receives the light signal, control module receives the light signal that has sent of theftproof detecting element and no light signal and records into the safety lock signal, the light signal that has or no light signal that the photosensitive sensor feedback can not change the safety lock signal again after cabinet door 1 closes, and it is different with the safety lock signal to find the light signal that has or no light signal that photosensitive sensor fed back as control module, judge someone has taken away network terminal, thereby send alarm signal and make alarm unit report to the police.

Through set up humidity transducer and air velocity transducer on the cabinet body 4 after, even the temperature is less than 20 degrees centigrade, heat baffle 8 still opens and gets rid of the moisture, avoids network terminal to shorten life under humid environment, and can not take away the moisture when the wind speed is less than 0.3m/s natural wind, makes cabinet body 4 seal this moment and can prevent that the moisture from getting into cabinet body 4 and causing the influence to network terminal.

the system in this scheme is through setting up the cooperation on the execution module and detection module, under control module's control, when detection module tests the temperature and is higher than or equal to when predetermineeing the temperature, control module judges that the temperature at this moment can influence network terminal equipment and normally work, consequently open 8 enhancement radiating effect of heat damper, when detection module detects the temperature and is less than predetermineeing the temperature, utilize louvre 3 can satisfy the heat dissipation demand, close 8 avoiding a large amount of dusts to fall on network terminal through the heat dissipation frame this moment, influence network terminal and external heat exchange.

Example 2:

The reference numerals in this embodiment refer to the cabinet 4, the upper pipe 12, the return pipe 13, the lower pipe 14, the evaporation pipe 15, the check valve 16, and the water fan 17.

the present embodiment is substantially the same as embodiment 1, except that the present embodiment has four cooling pipes (as shown in fig. 8 and 9) disposed on the cabinet, where the cooling pipes include an upper pipe, a return pipe, a lower pipe and an evaporation pipe, the lower pipe is horizontally disposed 5cm above the partition, the upper pipe is disposed 10cm above the cabinet, the upper pipe in the present embodiment is a serpentine condenser pipe, the return pipe and the evaporation pipe are respectively connected to two ends of the upper pipe and the lower pipe, and the upper pipe, the return pipe, the lower pipe and the evaporation pipe are located on the same plane;

the return pipe is shorter than the evaporation pipe, a water fan which can be driven by water flow is arranged on the return pipe, the water fan is arranged right opposite to the inside of the cabinet body, and a one-way valve is also arranged on the return pipe;

The cooling tube contains a refrigerant with a boiling point below 40 ℃, dichloromethane is used in the embodiment, and the lower tube is filled with dichloromethane.

after so setting up, because the back flow is shorter than the evaporating pipe, the low tube level sets up and the top tube, the back flow, low tube and evaporating pipe are in the coplanar, make the one end that the back flow was connected to the top tube be less than the one end of connecting the evaporating pipe, the refrigerant in the low tube evaporates and takes away the heat around the low tube when rising in temperature, the check valve that sets up on the back flow prevents that the refrigerant from getting into the top tube from the back flow after the evaporation of being heated, the refrigerant of evaporation is along evaporating pipe to the top tube, when the steam of refrigerant flows in the top tube, touch the top tube pipe wall, the condensation becomes liquid, liquid refrigerant flows to the back flow along the top tube of slope under the effect of gravity, the refrigerant drives the fan when meetting the fan and produces the air current and takes.

because network terminal self produces the heat, consequently make network terminal unable heat dissipation lead to network terminal's temperature to lead to the performance of network terminal to descend more and more high when temperature rises, this scheme is taken the internal heat of cabinet to the cabinet body top through the cooling tube and is distributed away, reduces the temperature around the network terminal, reaches the purpose of strengthening the radiating effect of network terminal install bin.

specifically, the return pipe is provided with a check valve to prevent the refrigerant from entering the condenser pipe from the return pipe after being heated and evaporated. The specific water fan comprises a fan handle positioned in the backflow pipe and a fan body positioned outside the backflow pipe, the fan handle is fixedly connected with the fan body, the fan handle penetrates through the side wall of the backflow pipe, the fan handle is hinged with the side wall of the backflow pipe, a torsional spring used for keeping the water fan horizontal is arranged between the fan handle and the side wall of the backflow pipe, a rubber sealing film is arranged on the inner wall of the fan handle and the inner wall of the backflow pipe, the fan handle moves up and down in a reciprocating mode by utilizing the falling speed (namely, the gravitational potential energy of the refrigerant) of the refrigerant after being cooled, and finally the fan body also moves up and down to drive air to flow, so that the purpose of enhancing the heat dissipation.

the foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. The network terminal heat dissipation system is characterized by comprising a cabinet door, a detection module, a cabinet body, a control module and an execution module, wherein the detection module is arranged on the cabinet door, the cabinet body is arranged on the cabinet body, the control module and the execution module are arranged on the cabinet body, the cabinet door can completely cover the cabinet body, a connecting strip is arranged between the cabinet door and the cabinet body, a horizontal sliding groove is arranged on the side wall of a corner of the cabinet body, the cabinet door is hinged with the connecting strip, a plurality of heat dissipation frames and heat dissipation holes are arranged on the cabinet door, the heat dissipation holes are also arranged on the side surface of the cabinet body and are arranged between the heat dissipation frames, a partition plate and a plurality of limiting strips are arranged on the cabinet body, the limiting strips are L-shaped, elastic buckling pieces are arranged on the limiting strips, the heat dissipation holes;

The execution module comprises a vent execution unit, the detection module comprises a temperature detection unit for receiving temperature information fed back by a temperature sensor and sending the temperature information to the control module, the control module is used for receiving the temperature information, the control module is used for sending a closing signal to the vent execution unit when the temperature is lower than a preset temperature, the control module is also used for sending an opening signal to the vent execution unit when the temperature is higher than or equal to the preset temperature, the vent execution unit is used for receiving the closing signal and enabling the heat dissipation baffle to block the heat dissipation frame, and the vent execution unit is also used for receiving the opening signal and enabling the heat dissipation baffle to leave the heat dissipation frame;

The cabinet body is provided with four cooling pipes, each cooling pipe comprises an upper pipe, a return pipe, a lower pipe and an evaporation pipe, the lower pipe is horizontally arranged 5cm above the partition plate, the upper pipe is arranged 10cm above the cabinet body, the upper pipe is a snakelike condensation pipe, the return pipe and the evaporation pipe are respectively connected with two ends of the upper pipe and the lower pipe, and the upper pipe, the return pipe, the lower pipe and the evaporation pipe are positioned on the same plane;

the return pipe is shorter than the evaporation pipe, a water fan which can be driven by water flow is arranged on the return pipe, the water fan is arranged right opposite to the inside of the cabinet body, and a one-way valve is also arranged on the return pipe; the cooling pipe contains a refrigerant having a boiling point of 40 ℃ or lower.

2. The network terminal heat dissipation system of claim 1, wherein: the cabinet door is provided with a pressure-sensitive sensor for detecting whether the cabinet door is closed or not, the partition plate is provided with a plurality of photosensitive sensors, the cabinet body is provided with an alarm, the execution module further comprises an alarm unit, the detection module further comprises an anti-theft detection unit, the anti-theft detection unit is used for receiving a cabinet door opening signal or a cabinet door closing signal sent by the pressure-sensitive sensor and sending the cabinet door opening signal or the cabinet door closing signal to the control module, the anti-theft detection unit is also used for receiving an optical signal or an optical signal sent by each photosensitive sensor and sending the optical signal or the optical signal to the control module, the control module is used for recording the optical signal or the optical signal sent by each photosensitive sensor as a safety lock signal after receiving the cabinet door opening signal, and when the optical signal or the optical signal sent by each photosensitive sensor is different from the safety lock signal recorded before the cabinet door, the alarm unit is used for enabling the alarm to give an alarm after receiving the alarm signal sent by the control module.

3. The network terminal heat dissipation system of claim 1, wherein: be equipped with humidity transducer and air velocity transducer on the cabinet body, detection module is including being used for receiving humidity information of humidity transducer feedback and sending control module's humidity detecting element and receiving air velocity transducer feedback's air velocity detection unit and sending control module's air velocity detection unit, control module is used for receiving humidity information and air velocity information, and control module still is used for sending opening signal to vent execution unit when humidity is higher than 40% and the wind speed is greater than 0.3m/s, and control module still is used for sending closing signal to vent execution unit when the temperature is less than preset temperature, humidity is higher than 40% and the wind speed is less than 0.3 m/s.

4. The network terminal heat dissipation system of claim 1, wherein: the internal wall of cabinet is equipped with the stopper, when the stopper enables spacing in the space between the stopper, the elasticity cramp on the spacing can pass the louvre.

5. The network terminal heat dissipation system of claim 1, wherein: the inner wall of the top of the cabinet body is a mirror surface.

6. The network terminal heat dissipation system of claim 1, wherein: the clapboard is a metal plate with air holes.

7. The network terminal heat dissipation system of claim 1, wherein: and anti-skid edge strips are arranged on the partition plates.