CN116107844B - DNS server terminal with automatic regulation function and control method - Google Patents

Abstract

The invention relates to a DNS server terminal with an automatic regulation function and a control method, and belongs to the technical field of DNS servers.

Description

DNS server terminal with automatic regulation function and control method

Technical Field

The invention relates to the technical field of DNS servers, in particular to a DNS server terminal with an automatic adjusting function and a control method.

Background

With the development of information technology, the data machine room has higher and higher requirements on data processing capacity, and a server with large data processing capacity is required to bear the data processing function, so that operation and maintenance work of the server are finished, and the data processing capacity is improved. The problem of heat dissipation is an important problem affecting the running efficiency of the server, and upgrading the heat dissipation of the server has a positive effect on improving the performance of the server. Poor heat dissipation of the server cabinet can affect normal operation of the server equipment, and further affect network operation speed. The server devices contained after the construction of most machine rooms are numerous, and the problem of heat dissipation of the devices of the numerous servers is one of the important problems needing to be focused in the construction of the machine rooms. The server racks play an important role in the heat dissipation of the equipment in the machine room. The cooling machine room is cooled by adopting a cooling air supply mode penetrating through the raised floor or the ceiling, and the temperature of the space can be reduced as a whole, but the local heat dissipation effect of the server cabinet is poor, and the temperature is still high. Particularly, the server is operated continuously, and higher temperature can be generated in the operation process, so that the normal operation of the server is influenced. The local heat dissipation of the server cabinet can achieve a good heat dissipation effect, so that the running environment of the server is effectively improved, and the temperature of the server is reduced. However, in the prior art, only cooling is considered, and the operation speed or the operation efficiency of the environment of the server terminal in a certain working temperature range is the best, but only cooling is considered and the operation speed or the operation efficiency of the server terminal is not necessarily improved, and when the cooling effect is not in the optimal working temperature range of the server terminal, such as too strong cooling, the working environment temperature of the server is greatly reduced, and the operation speed or the operation efficiency of the server terminal is reduced.

Disclosure of Invention

The invention overcomes the defects of the prior art and provides a DNS server terminal with an automatic adjusting function and a control method.

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

the first aspect of the present invention provides a DNS server terminal with an automatic adjustment function, the DNS server terminal including a housing component, a monitoring component, and a number of DNS servers,

the method comprises the steps that first temperature sensors are arranged on the left side and the right side of a DNS server, and the temperature value of the DNS server during working is obtained through the first temperature sensors;

the shell component is arranged on the outer side of the DNS server and comprises a shell, the inside of the shell is of a hollow structure, vent holes are formed in two sides of the bottom of the shell, an air suction pipe is arranged on the left vent hole, an air inlet pipe is arranged on the right vent hole, the air inlet pipe and the air suction pipe are communicated through a circulating pipeline, and a plurality of linear array adjusting components are arranged on the circulating pipeline;

when the temperature value of the DNS server is higher than a preset temperature range value in working, the working environment in the DNS server is subjected to self-adaptive cooling through the adjusting component;

and monitoring the working current value of the DNS server during working through the monitoring component, and carrying out early warning according to the working current value.

Further, in a preferred embodiment of the present invention, both the left and right sides of the housing are connected with water pipes, the water pipes are inserted into the hollow structure, the water pipes are connected with the condensate water tank, and the housing is provided with second temperature sensors, and the water temperature value in the housing is obtained through the second temperature sensors.

Further, in a preferred embodiment of the present invention, the adjusting assembly includes an adjusting box, the adjusting box is in welded communication with the circulation pipe, and a first plate is welded at one end near the circulation pipe, and a plurality of through holes are formed in the first plate.

Further, in a preferred embodiment of the present invention, the adjusting assembly further includes a rubber block, a space of a predetermined size is formed between the rubber block and the first plate, and an expansion bladder is provided in the space, and the expansion bladder is capable of expanding as the temperature value increases.

Further, in a preferred embodiment of the present invention, the adjusting assembly further includes a telescopic rod and a spring, the spring is sleeved on the outer side of the telescopic rod, one end of the telescopic rod is connected with the rubber block, and the other side of the telescopic rod is fixed on one end of the adjusting box body.

Further, in a preferred embodiment of the present invention, a driving motor is further installed at the bottom of each adjusting box, an output end of the driving motor is connected to a rotating shaft, spiral blades in a circumferential array are installed on an outer circumference of the rotating shaft, and each spiral blade is installed on the rotating shaft in a preset radian.

Further, in a preferred embodiment of the present invention, a plurality of fans are disposed inside the circulation pipes in the left side of the housing, and at least one blower is disposed inside the circulation pipes in the right side of the housing, so as to form a circulation system.

Further, in a preferred embodiment of the present invention, the monitoring assembly includes a monitoring housing, an electric push rod is mounted on the top of the monitoring housing, and is connected to a moving rod through the electric push rod, and a push rod is connected to the bottom of the moving rod, so that under the action of the electric push rod, the connecting rod can be fully attached to or detached from a connection terminal, and the connection terminal is disposed at the bottom of the monitoring housing, and can obtain a current value of the DNS server when in operation through the connection terminal, so as to perform early warning according to the current value of the DNS server when in operation.

The invention provides a control method of a DNS server terminal with an automatic adjustment function, which is applied to any DNS server terminal with an automatic adjustment function, and specifically comprises the following steps:

acquiring data information of an optimal working environment temperature range of a current DNS server through a big data network, and presetting an optimal working environment temperature numerical range according to the data information of the optimal working environment temperature range of the current DNS server;

acquiring a temperature value in the current shell within preset time through a first temperature sensor, and judging whether the temperature value is within the optimal working environment temperature numerical range;

if the temperature value is not in the optimal working environment temperature numerical range, calculating an adjustable range of the working environment of the current DNS server according to the temperature value in the preset time in the current shell and the optimal working environment temperature numerical range;

and cooling through the shell component according to the adjustable range of the working environment of the current DNS server.

Further, in a preferred embodiment of the present invention, the control method of a DNS server terminal with an automatic adjustment function further includes the following steps:

acquiring working current data information of a DNS server within preset time through a monitoring component, and constructing a current change curve graph according to the working current data information;

presetting a plurality of working time periods, acquiring current change data information of each working time period from the current change curve graph, and acquiring current data information of a current DNS server in normal working through a big data network;

comparing the current change data information with current data information of the current DNS server in normal operation to obtain a deviation rate, and judging whether the deviation rate is larger than a preset deviation rate threshold value;

if the deviation rate is larger than a preset deviation rate threshold, generating early warning information according to current data information of the current DNS server in normal operation, and transmitting the early warning information to a remote DNS server monitoring terminal through a monitoring component.

The invention solves the defects existing in the background technology, and has the following beneficial effects:

according to the invention, the working environment depth value of the DNS server terminal is obtained through the first temperature sensor, when the working environment value is higher than the preset temperature value, the shell component can be intelligently adjusted according to the working environment temperature value, hot air in the DNS server is extracted through the exhaust fan, after the action of the shell component and the cooled air is input into the working environment of the DNS server terminal through the blower, in the process, the cooling area or the heating area of the hot air can be adjusted according to the working environment temperature value, so that the cooling is prevented from being too strong, and the working temperature is kept within the optimal working environment temperature range of the DNS server terminal. On the other hand, the invention can monitor the working current value of the DNS server terminal through the monitoring component, and when the working current value is higher than the preset working current value, the invention can timely feed back early warning information to the remote DNS server monitoring terminal through the monitoring component, so that continuous working is avoided when the current is abnormal.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other embodiments of the drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram showing an overall structure of a DNS server terminal with an automatic adjustment function;

fig. 2 shows a schematic diagram of a first cross-sectional structure of a DNS server terminal with an auto-tuning function;

fig. 3 is a schematic diagram showing a second cross-sectional structure of a DNS server terminal with an automatic adjustment function;

fig. 4 is a schematic diagram showing a third cross-sectional structure of a DNS server terminal with an automatic adjustment function;

fig. 5 is a schematic diagram showing a partial structure of a DNS server terminal with an automatic adjustment function;

fig. 6 shows a partially enlarged schematic partial view of a DNS server terminal with an auto-tuning function;

fig. 7 shows a schematic side view of the adjusting assembly.

In the figure:

1. the system comprises a housing assembly, 2. A monitoring assembly, 3. A DNS server, 101 casing, 102. An air suction pipe, 103. An air inlet pipe, 104. A circulating pipeline, 105. A regulating assembly, 106. A water pipe, 107. A condensate tank, 201. A monitoring housing, 202. An electric push rod, 203. A movable rod, 204. A push rod, 205. A connecting rod, 206. A connecting terminal, 301. A regulating box, 302. An air suction fan, 303. A first plate, 304. A rubber block, 305. An expansion air bag, 306. A telescopic rod, 307. A spring, 308. A driving motor, 309 rotation shaft, 310. A spiral blade, 311. A blower.

Detailed Description

In order that the above objects, features and advantages of the invention will be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings and detailed description thereof, which are simplified schematic drawings which illustrate only the basic structure of the invention and therefore show only those features which are relevant to the invention, it being noted that embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present application, it should be understood that the terms "center," "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present application and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the scope of protection of the present application. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may include one or more of the feature, either explicitly or implicitly. In the description of the invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application can be understood by those of ordinary skill in the art in a specific context.

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

As shown in fig. 1 to 3, a first aspect of the present invention provides a DNS server terminal with an automatic adjustment function, where the DNS server terminal includes a housing assembly 1, a monitoring assembly 2, and a plurality of DNS servers 3, and first temperature sensors are installed on both left and right sides of the DNS server 3, so as to obtain a temperature value of the DNS server 3 during operation through the first temperature sensors; on the other hand, the shell component 1 is arranged on the outer side of the DNS server 3, and the shell component 1 comprises a shell 101, wherein the inside of the shell 101 is of a hollow structure, vent holes are formed in two sides of the bottom of the shell 101, an air suction pipe 102 is arranged on the left vent hole, an air inlet pipe 103 is arranged on the right vent hole, the air inlet pipe 103 and the air suction pipe 102 are communicated through a circulating pipeline 104, and a plurality of linear array adjusting components 105 are arranged on the circulating pipeline 104; when the temperature value of the DNS server 3 in working is higher than a preset temperature range value, the working environment in the DNS server 3 is subjected to self-adaptive cooling through the adjusting component 105; on the other hand, the monitoring component 2 monitors the working current value of the DNS server 3 during working, and early warning is carried out according to the working current value. In this embodiment, the interior of the housing assembly 1 is a hollow structure, and condensed water is injected into the interior of the housing assembly 1, and the temperature user of the condensed water can be freely set according to actual needs; next, the hollow structure of the housing assembly 1 in the present embodiment is communicated with the water pipe 106 so that cold water in the condensate tank 107 can enter into the hollow structure from the water pipe 106. Wherein, the condensate water tank 107 may be provided with a control valve to control cold water to enter or extract water in the hollow structure, in this process, the condensate water tank 107 on the left and right sides is led into the hollow structure of the housing assembly 1 when the condensate water tank 107 on the left side is in operation (at this time, the condensate water tank 107 on the right side is in an inactive state), after the temperature of the water in the hollow structure rises to a certain temperature, the condensate water tank 107 on the left side withdraws water, at this time, the condensate water tank 107 on the right side injects the condensate water into the hollow structure of the housing assembly 1, and circulates according to this operation mode.

As shown in fig. 1 to 3, when the working environment temperature value of the DNS server is higher than the predetermined environment temperature value, hot gas in the working environment of the DNS server is extracted by the exhaust fan 302 in the drawing, so that the hot gas enters the circulation pipeline 104, and further, condensed water cools the hot gas in the circulation pipeline 104, after the condensed water circulates through the circulation pipeline 104, the cooled gas is sent to the working environment of the DNS server again through the blower, so that the system forms a circulating cooling and air supply system, and in addition, the dual cooling of the shell 101 is added, so that the cooling effect of the working environment of the DNS server is improved. In some embodiments, the left side and the right side of the housing 101 are connected with water pipes 106, the water pipes 106 are inserted into the hollow structure, the water pipes 106 are connected with the condensate water tank 107, and the housing 101 is provided with a second temperature sensor, and the temperature value of the water body in the housing 101 is obtained through the second temperature sensor. When the water temperature value is higher than the preset water temperature value, the condensate water tank 107 in the left side withdraws water, and at the moment, the condensate water tank 107 in the right side injects condensate water into the hollow structure of the shell component 1, and the circulation is carried out according to the working mode.

As shown in fig. 4 and fig. 7, it should be noted that, in some embodiments, only cooling is considered in some prior art, and the operation speed or the operation efficiency of the server terminal in the environment of a certain operation temperature range is the best, only cooling is considered, which does not necessarily improve the operation speed or the operation efficiency of the server terminal, and when the cooling effect is not in the optimum operation temperature range of the server terminal, such as too hard cooling, the operation environment temperature of the server is greatly reduced, and the operation speed or the operation efficiency of the server terminal is reduced instead. In view of this phenomenon, the present invention provides an adjusting assembly 105, wherein the adjusting assembly 105 includes an adjusting box 301, the adjusting box 301 is in welded communication with the circulation pipe 104, and a first plate 303 is welded at one end near the circulation pipe 104, and a plurality of through holes are provided on the first plate 303; the adjusting assembly 105 further comprises a rubber block 304, a space with a preset size is formed between the rubber block 304 and the first plate 303, and an expansion air bag 305 is arranged in the space, and the expansion air bag 305 can expand along with the rise of the temperature value; the adjusting component 105 further comprises a telescopic rod 306 and a spring 307, the spring 307 is sleeved on the outer side of the telescopic rod 306, one end of the telescopic rod 306 is connected with the rubber block 304, and the other side of the telescopic rod 306 is fixed on one end of the adjusting box 301. When the working environment value of the DNS server terminal is continuously increased, at this time, part of gas enters a space with a preset size between the rubber block 304 and the first plate 303 from the through hole on the first plate 303, so that the expansion airbag 305 in the space expands due to continuous increase of temperature, and due to the action of expansion force, the rubber block 304 can push the telescopic rod 306, so that the rubber block 304 can move a certain distance, the contact area of the gas and the condensed water increases, the distance moved by the rubber block 304 is further the higher the temperature, the contact area of the gas and the condensed water gradually increases, the condensation effect gradually increases along with the increase of the working environment temperature, intelligent adjustment according to the working environment temperature value is realized, and the working temperature is prevented from being cooled too hard, so that the working temperature is kept within the optimal working environment temperature range of the DNS server terminal. Wherein, the rubber block 304 can fully fit and contact with the inside of the adjusting box 301. When the temperature gradually decreases, the expansion airbag 305 gradually contracts, so that the rubber block 304 can push the telescopic rod 306, the rubber block 304 can move a certain distance, the contact area of gas and condensed water gradually decreases, the normal cooling effect is maintained to avoid too strong cooling, and the working temperature is kept within the optimal working environment temperature range of the DNS server terminal.

As shown in fig. 3 and fig. 6, in some embodiments, a driving motor 308 is further installed on the bottom of each adjusting box 301, an output end of the driving motor 308 is connected to a rotating shaft 309, spiral blades 310 in a circumferential array are installed on an outer circumference of the rotating shaft 309, and each spiral blade 310 is installed on the rotating shaft 309 in a preset radian. In the cooling process, the rotating shaft 309 is driven to rotate by the driving motor 308, so that the spiral blades 310 on the rotating shaft 309 rotate, the water body near the adjusting box 301 in each area can be stirred by the spiral blades 310, the heat exchange capacity of the water body can be quickened, the temperature of the adjusting box 301 and the circulating pipeline 104 can be brought away by the stirred condensed water body, and the cooling effect of the working environment in the DNS server 3 is improved.

As shown in fig. 5, it should be noted that, in a further preferred embodiment of the present invention, the monitoring assembly 2 includes a monitoring housing 201, an electric push rod 202 is installed on the top of the monitoring housing 201, and is connected to a moving rod 203 through the electric push rod 202, a pushing rod 204 is connected to the lower part of the moving rod 203, and the bottom of the pushing rod 204 is connected to a connecting rod 205, so that under the action of the electric push rod 202, the connecting rod 205 can be fully attached to or detached from a connecting terminal 206, and the connecting terminal 206 is disposed on the bottom of the monitoring housing 201, and can obtain a current value when the DNS server 3 works through the connecting terminal 206, so as to perform early warning according to the current value when the DNS server 3 works. In this embodiment, the working wire of the DNS server 3 is connected through the connection terminal 206, so that the connection terminal 206 can obtain the working current data information of the DNS server within a preset time, and then construct a current change graph according to the working current data information; presetting a plurality of working time periods through a computer, acquiring current change data information of each working time period from the current change curve graph, and acquiring current data information of a current DNS server in normal working through a big data network; comparing the current change data information with the current data information of the current DNS server in normal operation to obtain a deviation rate, and judging whether the deviation rate is larger than a preset deviation rate threshold value; if the deviation rate is larger than a preset deviation rate threshold, generating early warning information according to current data information of the current DNS server in normal operation, and transmitting the early warning information to a remote DNS server monitoring terminal (computer) through a monitoring component. When the deviation rate is greater than a preset deviation rate threshold, the electric push rod 202 is driven, so that the electric push rod 202 can drive the moving rod 203, the pushing rod 204 and the connecting rod 205, the connecting rod 205 can be fully attached to or disconnected from the connecting terminal 206, and when the working current data information of the DNS server normally works, the DNS server is in a disconnected state; and when the working current data information of the DNS server is abnormal, the DNS server is in a fully attached state so as to send an early warning signal to a remote DNS server monitoring terminal.

The second aspect of the present invention provides a control method for a DNS server terminal with an automatic adjustment function, which is applied to any one of the DNS server terminals with an automatic adjustment function, and specifically includes the following steps:

s102, acquiring data information of an optimal working environment temperature range of a current DNS server through a big data network, and presetting an optimal working environment temperature numerical range according to the data information of the optimal working environment temperature range of the current DNS server;

s104, acquiring a temperature value within preset time in the current shell through a first temperature sensor, and judging whether the temperature value is within the optimal working environment temperature numerical range;

s106, if the temperature value is not in the optimal working environment temperature numerical range, calculating an adjustable range of the working environment of the current DNS server according to the temperature value in the preset time in the current shell and the optimal working environment temperature numerical range;

s108, cooling processing is carried out through the shell component according to the adjustable range of the working environment of the current DNS server.

It should be noted that, when the temperature value is not within the optimal working environment temperature value range, the adjustable range of the working environment of the current DNS server is calculated according to the temperature value within the preset time and the optimal working environment temperature value range in the current housing, and the cooling process is performed through the housing component according to the adjustable range of the working environment of the current DNS server, in this process, when the working environment temperature value of the DNS server is higher than the preset environment temperature value, hot gas in the working environment of the DNS server is extracted through the exhaust fan in the drawing, so that the hot gas enters the circulation pipeline, further, condensed water cools the hot gas in the circulation pipeline, and after circulating through the circulation pipeline, the cooled gas is sent into the working environment of the DNS server again through the blower, so that the system forms a circulating cooling and air supply system. When the working environment value of the DNS server terminal is continuously increased, at this time, part of gas enters into a space with a preset size between the rubber block and the first plate from the through hole on the first plate, so that an expansion airbag in the space expands due to continuous increase of temperature, the rubber block 304 can push the telescopic rod due to the action of expansion force, the rubber block can move a certain distance, the contact area of the gas and condensed water increases, the distance moved by the rubber block is further the higher the temperature, the contact area of the gas and the condensed water gradually increases, the condensation effect gradually increases along with the increase of the working environment temperature, intelligent adjustment according to the working environment temperature value is realized, the phenomenon of excessive cooling is avoided, and the working temperature is kept within the optimal working environment temperature range of the DNS server terminal. Wherein, the rubber piece can fully laminate and contact with the inside of adjusting the box. When the temperature gradually decreases, the expansion air bag gradually contracts, so that the rubber block can push the telescopic rod, the rubber block can move a certain distance, the contact area of gas and condensed water is gradually reduced, the normal cooling effect is maintained to avoid too strong cooling, and the working temperature is kept within the optimal working environment temperature range of the DNS server terminal. And acquiring a water body temperature value in the shell through the second temperature sensor. When the water temperature value is higher than the preset water temperature value, the condensate water tank in the left side withdraws water, and at the moment, the condensate water is injected into the hollow structure of the shell component by the condensate water tank in the right side, and the circulation is carried out according to the working mode.

Further, in a preferred embodiment of the present invention, the control method of a DNS server terminal with an automatic adjustment function further includes the following steps:

s202, acquiring working current data information of a DNS server within preset time through a monitoring component, and constructing a current change curve graph according to the working current data information;

s204, presetting a plurality of working time periods, acquiring current change data information of each working time period from the current change curve graph, and acquiring current data information of the current DNS server in normal working through a big data network;

s206, comparing the current change data information with the current data information of the current DNS server in normal operation to obtain a deviation rate, and judging whether the deviation rate is larger than a preset deviation rate threshold value;

and S208, if the deviation rate is greater than a preset deviation rate threshold, generating early warning information according to the current data information of the current DNS server in normal operation, and transmitting the early warning information to a remote DNS server monitoring terminal through a monitoring component.

It should be noted that, in this embodiment, when the deviation rate is greater than the preset deviation rate threshold, by driving the electric push rod 202, the electric push rod 202 can drive the moving rod 203, the pushing rod 204 and the connecting rod 205, so that the connecting rod 205 can be fully attached to or disconnected from the connection terminal 206, and when the working current data information of the DNS server normally works, the connection terminal is in a disconnected state; and when the working current data information of the DNS server is abnormal, the DNS server is in a fully attached state so as to send an early warning signal to a remote DNS server monitoring terminal.

It should be noted that, in this embodiment, the method may further include obtaining, by the monitoring component, working current data information of the DNS server within a preset time, and determining whether the working current data information of the DNS server within the preset time is greater than the preset working current data information, when the working current data information of the DNS server within the preset time is greater than the preset working current data information, determining whether a connection terminal in the monitoring component can receive a current signal within a next preset time, and when the connection terminal can receive the current signal, sending an early warning signal of an impending power utilization fire; when the wiring terminal cannot receive the current signal, an early warning signal that the power utilization fire occurs is sent out.

In this embodiment, when the working current data information of the DNS server is continuously increased within a certain period of time, the line is easy to be short-circuited due to the aging linearity of the line; when the working current data information of the DNS server is large to a certain extent (the current is large enough to cause the burning after the short circuit of a line), a warning signal of impending power utilization fire is sent out by judging whether a wiring terminal in the monitoring component can receive a current signal or not within the next preset time, and when the wiring terminal can receive the current signal, the current signal is sent out; when the wiring terminal cannot receive the current signal, an early warning signal that the power utilization fire occurs is sent out. The method can timely find out the phenomenon of fire disaster caused by electricity, improves the electricity utilization safety of the server terminal, and informs related personnel to perform fire disaster early warning and fire extinguishing operation.

It should be noted that the present invention may further include a first infrared sensor disposed on the housing and a second infrared sensor disposed in each DNS server, where the first infrared sensor and the second infrared sensor may be installed in pairs, and because the first infrared sensor and the second infrared sensor each have specific working information, when the first infrared sensor and the second infrared sensor perform correlation, a specific combination information may be formed, for example, the working information of a certain first infrared sensor is 1000, and the formed combination code is 10002000, and when the working current of a certain DNS server is abnormal, the DNS server that generates an abnormality can be quickly located, and through the present arrangement, when a short circuit occurs, the DNS server that is related to the first infrared sensor and the second infrared sensor may be quickly located, and power off of other DNS servers may be intelligently controlled, so as to protect normal operation of other DNS servers.

In summary, the working environment depth value of the DNS server terminal is obtained through the first temperature sensor, when the working environment value is higher than the preset temperature value, the shell component can be intelligently adjusted according to the working environment temperature value, hot air in the DNS server is extracted through the exhaust fan, after the effect of the shell component is achieved, and the cooled air is input into the working environment of the DNS server terminal through the blower, in the process, the cooling area or the heated area of the hot air can be adjusted according to the working environment temperature value, so that the cooling is prevented from being too hard, and the working temperature is kept within the optimal working environment temperature range of the DNS server terminal. On the other hand, the invention can monitor the working current value of the DNS server terminal through the monitoring component, and when the working current value is higher than the preset working current value, the invention can timely feed back early warning information to the remote DNS server monitoring terminal through the monitoring component, so that continuous working is avoided when the current is abnormal.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

The above-described preferred embodiments according to the present invention are intended to suggest that, from the above description, various changes and modifications can be made by the person skilled in the art without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the contents of the specification, and the technology must be determined according to the scope of claims.

Claims (4)

1. A DNS server terminal with an automatic regulation function, which comprises a shell component, a monitoring component and a plurality of DNS servers, and is characterized in that,

the method comprises the steps that first temperature sensors are arranged on the left side and the right side of a DNS server, and the temperature value of the DNS server during working is obtained through the first temperature sensors;

the shell component is arranged on the outer side of the DNS server and comprises a shell, the inside of the shell is of a hollow structure, vent holes are formed in two sides of the bottom of the shell, an air suction pipe is arranged on the left vent hole, an air inlet pipe is arranged on the right vent hole, the air inlet pipe and the air suction pipe are communicated through a circulating pipeline, and a plurality of linear array adjusting components are arranged on the circulating pipeline;

when the temperature value of the DNS server is higher than a preset temperature range value in working, the working environment in the DNS server is subjected to self-adaptive cooling through the adjusting component;

monitoring a working current value of the DNS server during working through the monitoring component, and carrying out early warning according to the working current value;

the adjusting assembly comprises an adjusting box body, the adjusting box body is communicated with the circulating pipeline in a welding way, a first plate is welded at one end, close to the circulating pipeline, of the adjusting box body, and a plurality of through holes are formed in the first plate;

the adjusting assembly further comprises a rubber block, a space with a preset size is formed between the rubber block and the first plate, and an expansion air bag is arranged in the space and can expand along with the rise of the temperature value;

the adjusting assembly further comprises a telescopic rod and a spring, the spring is sleeved on the outer side of the telescopic rod, one end of the telescopic rod is connected with the rubber block, and the other side of the telescopic rod is fixed on one end of the adjusting box body;

a driving motor is further installed on the bottom of each adjusting box body, the output end of the driving motor is connected with a rotating shaft, spiral blades in a circumferential array are installed on the outer circumference of the rotating shaft, and each spiral blade is installed on the rotating shaft in a preset radian;

the left side and the right side of the shell are respectively connected with a water pipeline, the water pipelines are respectively inserted into the hollow structure, the water pipelines are respectively communicated with the condensate water tank, and a second temperature sensor is arranged in the shell and used for acquiring the temperature value of the water body in the shell;

a plurality of exhaust fans are arranged in the circulating pipelines in the left side of the shell, and at least one air blower is arranged in the circulating pipelines in the right side of the shell so as to form a circulating system;

when the condensate water tanks on the left side and the right side work, condensed water in the condensate water tank on the left side is introduced into the hollow structure of the shell component, after the temperature of the water in the hollow structure rises to a certain temperature, the condensate water tank on the left side pumps back the water, and at the moment, the condensate water tank on the right side injects the condensed water into the hollow structure of the shell component;

when the working environment temperature value of the DNS server is higher than a preset environment temperature value, taking hot gas in the working environment of the DNS server through an exhaust fan, enabling the hot gas to enter a circulating pipeline, further enabling condensed water to cool the hot gas in the circulating pipeline, and enabling cooled gas to be sent into the working environment of the server again through a blower after circulating through the circulating pipeline, so that double cooling is achieved;

when the working environment value of the DNS server terminal is continuously increased, part of gas enters a space with a preset size between the rubber block and the first plate from the through hole on the first plate, so that an expansion airbag in the space is expanded due to continuous increase of temperature, and the rubber block can push the telescopic rod due to the action of expansion force, so that the rubber block can move a certain distance, and the contact area of the gas and condensed water is increased.

2. The DNS server terminal with an automatic adjusting function according to claim 1, wherein the monitoring component includes a monitoring housing, an electric push rod is installed on the top of the monitoring housing and is communicated with a moving rod through the electric push rod, the pushing rod is connected with the lower part of the moving rod, and the bottom of the pushing rod is connected with a connecting rod, so that under the action of the electric push rod, the connecting rod can be fully attached to or detached from a connecting terminal, the connecting terminal is arranged at the bottom of the monitoring housing, and a current value of the DNS server during operation can be obtained through the connecting terminal, so that early warning is performed according to the current value of the DNS server during operation.

3. A control method of a DNS server terminal with an automatic adjustment function, applied to the DNS server terminal with an automatic adjustment function according to any one of claims 1-2, specifically comprising the steps of:

acquiring data information of an optimal working environment temperature range of a current DNS server through a big data network, and presetting an optimal working environment temperature numerical range according to the data information of the optimal working environment temperature range of the current DNS server;

acquiring a temperature value in the current shell within preset time through a first temperature sensor, and judging whether the temperature value is within the optimal working environment temperature numerical range;

if the temperature value is not in the optimal working environment temperature numerical range, calculating an adjustable range of the working environment of the current DNS server according to the temperature value in the preset time in the current shell and the optimal working environment temperature numerical range;

and cooling through the shell component according to the adjustable range of the working environment of the current DNS server.

4. A control method of a DNS server terminal with an automatic adjustment function according to claim 3, further comprising the steps of:

acquiring working current data information of a DNS server within preset time through a monitoring component, and constructing a current change curve graph according to the working current data information;

presetting a plurality of working time periods, acquiring current change data information of each working time period from the current change curve graph, and acquiring current data information of a current DNS server in normal working through a big data network;

comparing the current change data information with current data information of the current DNS server in normal operation to obtain a deviation rate, and judging whether the deviation rate is larger than a preset deviation rate threshold value;

if the deviation rate is larger than a preset deviation rate threshold, generating early warning information according to current data information of the current DNS server in normal operation, and transmitting the early warning information to a remote DNS server monitoring terminal through a monitoring component.

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