CN101819457B

CN101819457B - Heat dissipation method and heat dissipation system for communication equipment

Info

Publication number: CN101819457B
Application number: CN2010101542057A
Authority: CN
Inventors: 张仲江; 吴兴刚; 胡岳青; 潘之茂
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2010-04-23
Filing date: 2010-04-23
Publication date: 2012-08-08
Anticipated expiration: 2030-04-23
Also published as: CN101819457A

Abstract

The embodiment of the invention discloses a heat dissipation method and a heat dissipation system for communication equipment for improving the heat dissipation reliability under the condition of reducing the heat dissipation energy consumption of the communication equipment, and relates to the field of communication equipment. The method comprises the following steps of: acquiring temperature of a heat subarea inside the communication equipment; calculating a heat dissipation parameter of a heat dissipation unit in the heat subarea according to the acquired temperature and the associated configuration of the heat subarea and other subareas; and performing heat dissipation on the heat dissipation unit in the heat subarea according to the heat dissipation parameter. Corresponding to the heat dissipation method for the communication equipment, the embodiment of the invention also provides the heat dissipation system for the communication equipment. The heat dissipation system comprises a temperature acquisition unit, a control unit and the heat dissipation unit, wherein the control unit is used for calculating the heat dissipation parameter of the heat dissipation unit in the heat subarea according to the acquired temperature and the associated configuration of the heat subarea and other subareas. The method and the system are used for heat dissipation of the communication equipment.

Description

A kind of heat dissipating method of communication facilities and cooling system

Technical field

The present invention relates to communication equipment field, more specifically, relate to a kind of heat dissipating method and cooling system of communication facilities.

Background technology

Develop rapidly along with semiconductor technology; Promoted the continuous progress of communication facilities at aspects such as function, performances; Brought huge challenge also for simultaneously communications equipment manufacturer and operator: along with the hardware complexity increase of equipment; The power consumption of equipment is also increasingly high, and the distribute power of device interior is also increasing with the distributional differenceization of business.Communication facilities one big characteristics are that Overall Power Consumption is big, and reliability requirement is high.

The technical scheme of in the prior art scheme, communication facilities being dispelled the heat and being adopted; Be that fan is carried out the speed governing management; Promptly, dynamically adjust the rotating speed of equipment internal fan, under the prerequisite that satisfies heat radiation, make fan always work in slow-speed of revolution pattern according to the device interior temperature conditions; And reduce from the energy consumption that makes fan, reduce the power consumption of equipment.When communication facilities dispelled the heat in the prior art, the method that fan speed-regulating administrative institute is adopted was for to carry out hot subregion to device interior, and equipment carries out independently fan speed-regulating according to hot subregion to each hot subregion and controls.Fan in the same hot subregion is unified speed governing; Rotation speed of the fan between hot subregion and the hot subregion does not interrelate; Can make the high hot subregion internal fan of temperature be operated in high-speed state like this; The hot subregion that temperature is low and do not have the hot subregion internal fan of veneer setting to be operated in low speed state, as shown in Figure 1.Like this; The quantity of configuration veneer is fewer when on communication facilities, just activating the service usually; Inner some the hot subregion of communication facilities this moment does not have veneer, some hot subregion veneer negligible amounts, and division power is less than normal; So this moment, the cooling system of communication facilities just can be realized the differentiation speed governing according to the energy consumption of subregion, realized energy saving of system.

But in the technique scheme; The inventor finds that there is following shortcoming in technique scheme; Adopting fully independently to each hot subregion, VSC exists very big risk: because of the speed governing of heat-sink unit in the hot subregion only can be satisfied the self-radiating demand, but when high temperature or high temperature alarm appearred in hot subregion, the fan speed-regulating of this subregion had certain limitation; Only rely on the fan of this subregion can not guarantee the radiating requirements of this subregion, reduced the reliability of heat radiation.

Summary of the invention

The embodiment of the invention provides a kind of heat dissipating method of communication facilities, can under the heat radiation energy consumption reduction situation of communication facilities, improve the heat radiation reliability.

The heat dissipating method of the communication facilities that the embodiment of the invention provides, adopt following technical scheme:

Communication facilities internal heat subregion is carried out temperature acquisition;

By the associated configuration of the temperature of being gathered and said hot subregion and other subregions, calculate the radiation parameter of heat-sink unit in the said hot subregion;

Heat-sink unit dispels the heat according to said radiation parameter in the said hot subregion;

If said hot subregion is in the temperature warning state, heat-sink unit dispels the heat with the higher limit of radiation parameter in the then said hot subregion, and carries out with said hot subregion that heat-sink unit dispels the heat with the higher limit of radiation parameter in other subregions of associated configuration;

If said hot subregion temperature warning is removed; And the initial radiation parameter of heat-sink unit is greater than the threshold value of this hot subregion of setting in the said hot subregion; And in the said hot subregion the initial radiation parameter of heat-sink unit more than or equal to having the initial radiation parameter of heat-sink unit in other subregions of associated configuration with this hot subregion, in then said other subregions in heat-sink unit and the said hot subregion heat-sink unit all dispel the heat with the initial radiation parameter of heat-sink unit in the said hot subregion.

Corresponding with said method, embodiments of the invention also provide a kind of cooling system of communication facilities, comprising:

Temperature collecting cell is used for communication facilities internal heat subregion is carried out temperature acquisition;

Control module is used for the associated configuration by the temperature of being gathered and said hot subregion and other subregions, calculates the radiation parameter of heat-sink unit in the said hot subregion;

Heat-sink unit is used for dispelling the heat according to the said radiation parameter that control module issues;

Said control module also comprises:

The temperature warning processing module; Be used for when said hot subregion is in the temperature warning state; Make that heat-sink unit dispels the heat with the higher limit of radiation parameter in the said hot subregion, and make and carry out with said hot subregion that heat-sink unit dispels the heat with the higher limit of radiation parameter in other subregions of associated configuration;

Rotating speed choice module; Be used for when said hot subregion temperature warning is removed; And when the initial radiation parameter of heat-sink unit is greater than the threshold value of this hot subregion of setting in the said hot subregion; And the initial radiation parameter of heat-sink unit makes in said other subregions that heat-sink unit all dispels the heat with the initial radiation parameter of heat-sink unit in the said hot subregion in the heat-sink unit and said hot subregion when having the initial radiation parameter of heat-sink unit in other subregions of associated configuration with this hot subregion in the said hot subregion.

The heat dissipating method of the communication facilities that the embodiment of the invention provides and the cooling system of communication facilities; After hot subregion carried out temperature acquisition; Calculate the radiation parameter of heat-sink unit in the said hot subregion, the radiation parameter of the said hot subregion of temperature effect of other subregions by the associated configuration of the temperature of being gathered and said hot subregion and other subregions.It is required to make the heat-sink unit of this hot subregion can not only satisfy the heat radiation of this subregion, and can influence and assist hot subregion associated therewith to dispel the heat, and guarantees the efficient and the reliability of heat radiation.Like this,, can transfer other subregions assistance heat radiations that have associated configuration with this subregion, guarantee the demand of heat radiation, improve the reliability of dispelling the heat even when high temperature or high temperature alarm appear in a hot subregion.

Description of drawings

In order to be illustrated more clearly in the technical scheme in the embodiment of the invention; To do to introduce simply to the accompanying drawing of required use among the embodiment below; Obviously, the accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills; Under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is a prior art rotation speed of the fan synoptic diagram;

Fig. 2 is the embodiment of the invention one a communication facilities internal heat dissipating method flow diagram;

Fig. 3 is the embodiment of the invention two communication facilities internal heat dissipating method flow diagrams;

Fig. 4 is the embodiment of the invention two temperature and rotation speed relation synoptic diagram;

Fig. 5 is hot subregion 0 temperature of the embodiment of the invention two heat-sink unit rotating speed synoptic diagram when rising;

Fig. 6 is hot subregion 0 temperature of the embodiment of the invention two heat-sink unit rotating speed synoptic diagram when descending;

Fig. 7 is the embodiment of the invention three temperature warning heat-sink unit rotating speed synoptic diagram;

Fig. 8 loses heat-sink unit rotating speed synoptic diagram for the embodiment of the invention four temperature acquisitions;

Fig. 9 is embodiment of the invention five-way letter equipment cooling method flow diagram;

Figure 10 embodiment of the invention six communication facilities cooling system block diagrams;

Figure 11 is a heat-sink unit quantity key diagram in the embodiment of the invention six communication facilitiess;

Figure 12 is the embodiment of the invention six communication facilities cooling system structural representations.

Embodiment

The present invention aims to provide a kind of heat dissipating method and cooling system of communication facilities, can under the heat radiation energy consumption reduction situation of communication facilities, improve the heat radiation reliability.

Embodiment one

Referring to Fig. 2, the heat dissipating method of embodiment of the invention communication facilities comprises the steps:

S1, communication facilities internal heat subregion is carried out temperature acquisition.

Communication facilities inside is divided into a plurality of hot subregions.The embodiment of the invention does not limit the partition method to communication facilities.The embodiment of the invention can be carried out hot subregion to communication facilities according to the distribution of slot in the communication facilities; Or carry out hot subregion, or be to carry out hot subregion according to the distance of the internal module of communication facilities according to the simulation or the actual distribution situation of communication facilities heat in operational process.Each hot subregion is arranged at least one temperature acquisition point, comprises at least one heat-sink unit in each hot subregion, and said heat-sink unit can be fan or cooling fan, and device interior carries out temperature acquisition to each temperature acquisition point at interval according to regular time.

S2, by the hot subregion temperature of being gathered and the associated configuration of said hot subregion and other subregions, calculate the radiation parameter of heat-sink unit in the said hot subregion.

The associated configuration of hot subregion and other subregions has been indicated the influence degree of other subregions to said hot subregion heat radiation, and this influence degree can be based on experience or based on to the calorimetric analysis between the hot subregion.For example set two coefficients relations between the subregion, confirm the size of this coefficient with the distance of hot subregion distance, the radiation parameter influence between big more two the hot subregions of coefficient is big more.The final radiation parameter of hot subregion not only depends on the temperature of this subregion; The temperature that also depends in advance configuration and other hot subregions simultaneously; It is required to make the radiation parameter of a hot subregion can not only satisfy the heat radiation of this subregion, and can influence and assist hot subregion associated therewith.Wherein, said radiation parameter can be the rotating speed of fan, or the power of fan and other parameter that can quantize heat-sinking capability.

Heat-sink unit dispels the heat according to said radiation parameter in S3, the said hot subregion.

Heat-sink unit is the execution unit of device interior heat radiation, and the interior heat-sink unit of hot subregion can be made up of one or more groups fan.Heat-sink unit carries out work according to said radiation parameter, thereby communication facilities is dispelled the heat.

The heat dissipating method of the communication facilities that the embodiment of the invention provides, it is required to make the heat-sink unit of this hot subregion can not only satisfy the heat radiation of this subregion, and can influence and assist hot subregion associated therewith to dispel the heat, and guarantees the efficient and the reliability of heat radiation.Like this,, can transfer other subregions assistance heat radiations that have associated configuration with this subregion, guarantee the demand of heat radiation, improve the reliability of dispelling the heat even when high temperature or high temperature alarm appear in a hot subregion.

Embodiment two

The embodiment of the invention is that embodiment one is bright more specifically, as shown in Figure 3 based on embodiment one, and the heat dissipating method of the communication facilities that the embodiment of the invention provides specifically comprises the steps:

S11, the hot subregion of device interior is carried out temperature acquisition.

According to interior veneer of communication equipment quantity communication facilities is divided into a plurality of hot subregions, each hot subregion comprises at least one veneer, and each veneer comprises at least one temperature acquisition point.The embodiment of the invention adopts fan as heat-sink unit, and each hot subregion comprises a plurality of fans, and the rotating speed of fan is as radiation parameter.

The temperature value of gathering is corresponded to tachometer value; Particularly; As shown in Figure 4, simulate the higher limit and the lower limit of the speed governing of local area heat-sink unit according to the heat-sinking capability of each hot subregion self, wherein; Said higher limit is the maximum speed governing value that fan can carry out, and said lower limit is the minimum speed governing value that fan carries out speed governing.A kind of linear speed regulation algorithm is adopted in upper limit value and lower limit value interval at fan speed-regulating, and temperature is corresponding with the rotation speed of the fan value, can obtain the tachometer value of each temperature acquisition point.Adopt formula V=((Tx-Tmin) * (Vmax-Vmin)/Trange)+Vs, wherein V be the tachometer value that will calculate, Tx is the current temperature value of this temperature acquisition point; Vmin is the speed governing lower limit,, Vmax is the speed governing higher limit; Vs is the initial speed governing value of heat-sink unit, Vs=Vmin wherein, and Trange is temperature range Trange=Tmax-Tmin; Wherein Tmin is initial speed governing temperature value, and Tmax stops the speed governing temperature value.

After confirming that the temperature acquisition renewal finishes, get into step S12.

S12, obtain the initial radiation parameter of heat-sink unit in this hot subregion according to the temperature of said hot subregion.Particularly, obtain the initial speed of this hot subregion internal fan according to the temperature of the hot subregion that collects.

When this hot subregion was carried out independently temperature control, required heat-sinking capability was initial radiation parameter.Corresponding to the embodiment of the invention, when this hot subregion was carried out independently fan speed-regulating control, required rotation speed of the fan was an initial speed.When confirming the initial speed of hot subregion internal fan; Specific practice is: in the comparative heat subregion, and the corresponding tachometer value of the temperature value of all temperature acquisition points on veneer, the maximal value in the tachometer value that the temperature value of all temperature acquisition points is corresponding on selected this veneer is the tachometer value of this veneer fan correspondence; If this maximal value is littler than speed governing lower limit; Adopt the speed governing lower limit of subregion, if bigger than speed governing higher limit, the speed governing higher limit of employing subregion; Then the tachometer value that all said veneer fans are corresponding in the subregion is reported; Again the tachometer value of all veneer fans in the subregion is made comparisons afterwards; Confirm the initial speed of this subregion internal fan; Its value is the maximal value V0 in the tachometer value of all veneer fans; The initial speed V0 of this subregion internal fan is issued, and all fans carry out VSC according to initial speed in the subregion.

S13, by the initial radiation parameter of heat-sink unit in said other subregions and pre-configured other subregions and the degree of association of said hot subregion, confirm the related radiation parameter of heat-sink unit in the said hot subregion.Particularly, according to pre-configured related subregion threshold value, the degree of association and initial speed, confirm the related rotating speed of hot subregion internal fan.

Before carrying out this step, need carry out administration configuration to communication facilities, the associate feature of a hot subregion of configuration and other hot subregions.Particularly, the configuration of each hot subregion comprises the threshold value h of this hot subregion; Confirm and other hot subregions of the influential relation of this hot subregion that said other subregions are the related subregion of said hot subregion; The degree of association M of said related subregion and this hot subregion.In case wherein the meaning of threshold value is that the radiation parameter of heat-sink unit in the subregion surpasses this value, then needs related subregion support heat radiation to this hot subregion; Definite principle of related subregion is that the heat diffusion of a hot subregion has produced influence to the temperature of another hot subregion; The configuration of degree of association M has embodied the degree of this influence relation, and the big more expression temperature of the degree of association interacts big more, otherwise, then little.Generally speaking, two hot subregion degrees of association of close together are high, and its degree of association of hot subregion that distance is far away is low, when M is not 0, representes to have incidence relation between the hot subregion, when M is 0, represent that this hot subregion is independent control.

Based on above-mentioned configuration, when heat-sink unit dispelled the heat to other hot subregions in the hot subregion, extra additional heat-sinking capability was related radiation parameter, and the embodiment of the invention is specially related rotating speed.

Step S13 specifically can comprise the steps:

S131, judge whether hot subregion exists related subregion;

S132, judge that whether the initial speed of related subregion internal fan surpasses the threshold value of this association subregion internal fan;

S133, if the initial speed of related subregion internal fan surpasses the threshold value of this association subregion internal fan; Then, confirm the related revolution Δ V of said hot subregion internal fan according to the degree of association M of said related subregion and this hot subregion and initial speed V0 that should related subregion internal fan.

According to above-mentioned related zone configuration; Confirm the related subregion that hot subregion is all; Afterwards each related subregion is judged judge promptly whether the initial speed of each related subregion internal fan surpasses the threshold value of this association subregion internal fan, when the initial speed of related subregion internal fan does not have to surpass the threshold value of this association subregion fan; The initial speed of representing this association subregion fan can guarantee the radiating requirements in this association subregion; Do not need the fan in other hot subregions to assist heat radiation, when the initial speed of related subregion internal fan equals or exceeds this threshold value, according to the temperature and the degree of association compute associations rotating speed of related subregion.

Further, the embodiment of the invention also comprises the steps: then to confirm the additional heat parameter by the coefficient of temperature drop-out value and setting if temperature reduces in the said hot subregion.Said additional heat parameter is that heat-sink unit is because of considering the heat-sinking capability of the extra increase of other reasons; For example the embodiment of the invention is the rotating speed that prevents that the fan shake from increasing; Said coefficient is a scale-up factor; Can rule of thumb be worth or the experiment value setting, perhaps can be the numerical value that draws according to specific formula.Particularly; If temperature reduces in the hot subregion; Confirm that by the shake coefficient of temperature drop-out value and setting the shake rotating speed of hot subregion internal fan, said shake rotating speed are to prevent that the descend shake of too fast generation of rotation speed of the fan from removing the extra additional rotating speed of radiating requirements, makes the even reduction of speed of fan.

Temperature is gathered temperature in the hot subregion of the moment with the last time in the comparative heat subregion; If temperature is lower than the last temperature in the hot subregion of the moment of gathering in the hot subregion, then confirm the shake rotating speed Δ V ' of hot subregion internal fan.

If temperature is greater than or equal to the last temperature in the hot subregion of the moment of gathering in the hot subregion, then carry out step S14.

Situation to temperature reduction in the hot subregion; Shake rotating speed Δ V '=K* (V0 '-V0), K can be configured or set for the shake coefficient; The last initial speed of hot subregion internal fan constantly of gathering of V0 ' expression, V0 representes the current initial speed of hot subregion internal fan constantly of gathering.

S14, according to the radiation parameter of said initial radiation parameter with heat-sink unit in said related radiation parameter is confirmed said hot subregion.。Particularly, confirm total rotating speed of hot subregion internal fan according to initial speed and related rotating speed.

Rise or constant situation for temperature in the hot subregion, total revolution speed calculating formula of hot subregion is Vtatol=V0+ Δ V, and wherein V0 representes the initial speed of this hot subregion internal fan; Δ V representes the related rotating speed of this hot subregion internal fan; Particularly, for a hot subregion, possibly there are one or more related subregions in it; Δ V=M1*V1+M2*V2...+Mn-1*Vn-1+Mn*Vn (Mi representes the degree of association of hot subregion and related subregion i, and Vi representes the initial speed of related subregion i).

For the situation that temperature in the hot subregion descends, this step S14 is specially: the value of add up said additional heat parameter, said initial radiation parameter and said related radiation parameter is as the radiation parameter of said hot subregion.Be in the embodiment of the invention, accumulation dithering rotating speed Δ V ', initial speed V0 and related rotating speed Δ V are total rotating speed Vtatol of hot subregion, and thermotropism subregion internal fan issues total rotating speed Vtatol ', promptly total rotating speed Vtatol '=V0+ Δ V+ Δ V '.

Heat-sink unit dispels the heat according to said radiation parameter in S15, the said hot subregion.Particularly, hot subregion internal fan dispels the heat according to total rotational speed.

Particularly, rise or constant situation for temperature in the hot subregion, hot subregion internal fan rotates according to total rotating speed Vtatol=V0+ Δ V hot subregion is dispelled the heat; For example; As shown in Figure 5, the related subregion of hot subregion 0 is respectively hot subregion 1, hot subregion 2 and hot subregion 3, and the initial speed of hot subregion 1, hot subregion 2 and hot subregion 3 is respectively V1, V2 and V3; Be respectively M1, M2 and M3 with the degree of association of hot subregion 0; The related rotating speed Δ V=M1*V1+M2*V2+M3*V3 of then hot subregion 0, when correlation threshold value h and the temperature that surpasses himself when subregion 0 rotating speed continued to rise, total rotating speed was Vtatol=V0+ Δ V=V0+M1*V1+M2*V2+M3*V3.

Situation for temperature decline in the hot subregion; Hot subregion internal fan carries out heat radiation work according to total rotating speed Vtatol '=V0+ Δ V+ Δ V '; For example shown in Figure 6; When the temperature in the hot subregion 0 descends, the total rotating speed of fan in the hot subregion 0 be Vtatol=V0+ Δ V+ Δ V '=V0+M1*V1+M2*V2+M3*V3+K* (V0 '-V0).

The heat dissipating method of the communication facilities that the embodiment of the invention provides.Realize the differentiation speed governing between the hot subregion, make each hot subregion not only satisfy the radiating requirements of self, can also heat radiation support be provided to other hot subregions simultaneously, when reducing energy consumption, guaranteed the reliability of equipment cooling based on prior art.Further, for the speed governing of hot subregion, with reference to last time the temperature acquisition value carry out speed governing, avoid fan shake, further improved the reliability of heat radiation.

Embodiment three

The embodiment of the invention is to the abnormal conditions of communication facilities heat radiation, and the heat dissipating method of communication facilities also comprises the steps:

S21, judge whether hot subregion is in the temperature warning state.

If said hot subregion is in the temperature warning state, heat-sink unit dispels the heat with the higher limit of radiation parameter in the then said hot subregion, and carries out with said hot subregion that heat-sink unit dispels the heat with the higher limit of radiation parameter in other subregions of associated configuration.Particularly: if hot subregion is in the temperature warning state, then hot subregion internal fan rotates with the speed governing higher limit, and related subregion internal fan rotates with the speed governing higher limit.

When occurring getting into the abnormality processing state when unusual in the equipment, when be temperature warning unusually, the interior temperature of instant heating subregion is too high, reaches the warning temperature of setting when said.The related subregion with it of hot subregion dispels the heat with the higher limit of speed governing; To guarantee that this hot subregion can carry out fast cooling; As shown in Figure 7, hot subregion 0 is as if temperature warning, and then hot subregion 0 internal fan is operated in the speed governing higher limit; Be regarded as 100% rotary speed working, also be operated in 100% state with hot subregion 0 related hot subregion 1, hot subregion 2 and hot subregion 3 interior fans.

Further, the embodiment of the invention comprises that also the alarm of writing down related subregion internal fan increases rotating speed, and for Fig. 7, hot subregion 1,

hot subregion

2 and 3 alarms of hot subregion increase rotating speeds and are respectively Vg ₁, Vg ₂And Vg ₃

S22, judge whether hot subregion temperature warning is removed.

More particularly, if hot subregion temperature warning is removed the initial speed of comparative heat subregion internal fan and the threshold value of this hot subregion.

Increase after the rotating speed if the initial speed of hot subregion internal fan, then deducts alarm smaller or equal to the threshold value of this hot subregion, this hot subregion gets into normal mode of operation immediately, gets into step S24, and this hot subregion internal fan is dispelled the heat with the initial speed of this hot subregion.

Further, if the initial speed of hot subregion internal fan is greater than the threshold value of this hot subregion, the then initial speed of the initial speed of comparative heat subregion internal fan and related subregion internal fan.

If the initial speed of hot subregion internal fan is more than or equal to the initial speed of related subregion internal fan, then related subregion internal fan and hot subregion internal fan all rotate with the initial speed of hot subregion internal fan.

The fan of the related subregion of this hot subregion is dispelled the heat with the rotating speed that is higher than related section post need, is to avoid related subregion internal fan to reduce rapidly to shake because of rotating speed.

If the initial speed of hot subregion internal fan is less than the initial speed of this association subregion internal fan, then the related subregion of this hot subregion deducts alarm increases rotating speed, gets into normal mode of operation immediately, promptly gets into step S24.

S24, communication facilities internal heat subregion is carried out temperature acquisition;

S25, obtain the initial speed of this hot subregion internal fan according to the temperature of hot subregion;

S26, confirm the related rotating speed of hot subregion internal fan;

S27, confirm total rotating speed of hot subregion internal fan according to initial speed and related rotating speed;

S28, hot subregion internal fan dispel the heat to hot subregion according to total rotational speed.

Step S24-S28, embodiment can adopt embodiment one described algorithm and method.

The heat sink conception of being taked under a kind of abnormal patterns temperature warning situation that the embodiment of the invention is dispelled the heat to communication facilities can in time be tackled the emergency case of device interior, when appearance temperature is alarmed; Fan in the hot subregion and the interior all heat radiations at full speed of fan of related subregion; Temperature warning district temperature is descended, rapidly when temperature warning is removed, according to rotating speed and temperature conditions; Carry out the rotating speed transition between normal mode or normal and the alert mode; Avoid shake, present embodiment is that the useful of heat dissipating method of the present invention replenished, and has further improved the reliability of heat radiation.

Embodiment four

The embodiment of the invention three is to the another kind of abnormal conditions of communication facilities heat radiation, and the heat dissipating method of communication facilities also comprises the steps:

S31, judge whether hot subregion is in the temperature acquisition lost condition; If said hot subregion is in the temperature acquisition lost condition, heat-sink unit and is removed and this hot subregion exists other subregions of associated configuration and the association status of this hot subregion with the higher limit heat radiation of radiation parameter in the then said hot subregion.

More particularly, if hot subregion is in the temperature acquisition lost condition, then hot subregion internal fan is with the heat radiation of speed governing higher limit, and the related subregion of hot subregion is removed and the association status of this hot subregion.

As shown in Figure 8; If hot subregion 0 temperature acquisition is lost; Then hot subregion 0 internal fan is operated in the speed governing higher limit, i.e. 100% state is removed the association status with hot subregion 0 with hot subregion 0 related hot subregion 1, hot subregion 2 and hot subregion 3; Be operated in total rotating speed separately respectively, wherein related rotating speed does not comprise the related rotating speed with hot subregion 0.Exist one or more temperature acquisition points to lose and the getting in touch of harvester in the temperature acquisition lost condition instant heating subregion.This situation may cause the final temperature of gathering of this hot subregion can not truly reflect the practical situation of device interior; So this hot subregion takes worst case to handle; Make this hot subregion internal fan with the heat radiation of speed governing higher limit, to satisfy the radiating requirements of this hot subregion, still for avoiding unnecessary energy consumption; The related subregion of this hot subregion is removed the incidence relation with this hot subregion, the hot partition recovery temperature acquisition of losing up to temperature acquisition.

S32, judge whether hot subregion temperature acquisition recovers.If hot subregion temperature acquisition recovers, the rotating speed of then hot subregion internal fan returns to total rotating speed that this hot subregion temperature issues during the last temperature acquisition before losing, and gets into the normal mode of operation of communication facilities heat radiation immediately, promptly gets into step S33.

S33, communication facilities internal heat subregion is carried out temperature acquisition;

S34, obtain the initial speed of this hot subregion internal fan according to the temperature of hot subregion;

S35, confirm the related rotating speed of hot subregion internal fan;

S36, confirm total rotating speed of hot subregion internal fan according to initial speed and related rotating speed;

S37, hot subregion internal fan dispel the heat to hot subregion according to total rotational speed.

Step S33-S37, embodiment can adopt embodiment one described algorithm and method.

The embodiment of the invention can in time be tackled the emergency case of device interior to the heat sink conception of being taked under the another kind of abnormal patterns temperature loss situation of equipment cooling, is that the useful of heat dissipating method of the present invention replenished, and has further improved the reliability of heat radiation.

Embodiment five

As shown in Figure 9, the heat dissipating method of the communication facilities that the embodiment of the invention provides based on above-mentioned all embodiment, further comprises the steps:

S41, startup speed governing Timing Processing task judge whether last hot subregion internal fan speed governing processing finishes.

If last hot subregion internal fan speed governing disposes, then wait for the task of speed governing Timing Processing next time; If last hot subregion internal fan speed governing is handled also do not finish, then get into step S42.

Whether S42, this hot subregion of judgement need manual governing; If need manual governing, then issue the manual rotating speed of setting; If do not need manual governing, then get into step S43.

Whether S43, this hot subregion of judgement are in the temperature warning state; If hot subregion is in the temperature warning state, carry out temperature warning and handle, then hot subregion internal fan rotates with the speed governing higher limit, and related subregion internal fan rotates with the speed governing higher limit; If hot subregion is not in the temperature warning state, then get into step S44.

Whether S44, this hot subregion of judgement are in the temperature acquisition lost condition; If hot subregion is in the temperature acquisition lost condition, carry out temperature and lose processing, then hot subregion internal fan is with the heat radiation of speed governing higher limit, and the related subregion of hot subregion is removed and the association status of this hot subregion; If hot subregion is not in the temperature lost condition, then get into step S45.

The following steps flow process is based on embodiment two.

S45, this hot subregion is carried out temperature acquisition, confirm that all temperature acquisition point temperature acquisitions finish in the subregion.

S46, obtain the initial speed of this hot subregion internal fan according to the temperature of this hot subregion;

S47, confirm the related rotating speed of this hot subregion internal fan; Be specially,

Whether S471, this hot subregion of judgement exist related subregion;

S472, judge that whether the initial speed of related subregion internal fan surpasses the threshold value of this association subregion internal fan;

S473, if the initial speed of related subregion internal fan surpasses the threshold value of this association subregion internal fan; Then, confirm the related revolution of said hot subregion internal fan according to the degree of association of said related subregion and this hot subregion and initial speed that should related subregion internal fan.

S48, confirm total rotating speed of hot subregion internal fan according to initial speed and related rotating speed.

S49, this hot subregion internal fan dispel the heat to communication facilities according to total rotational speed.

Again getting into step S41 after a hot subregion speed governing finishes does not also carry out the hot subregion that speed governing handles to this moment and handles.

The embodiment of the invention has been considered two kinds of abnormal patterns of equipment cooling; Be temperature warning situation and temperature loss situation, before carrying out normal speed governing, to judging unusually; If produce unusual; Get into abnormality processing, improved the reliability of heat radiation, thus the heat sink conception that perfect communication facilities is taked.

Embodiment six

Shown in figure 10, the heat dissipating method of the communication facilities that provides based on the embodiment of the invention, the embodiment of the invention also provides the cooling system 1 of communication facilities, comprising:

Temperature collecting cell 2 is used for communication facilities internal heat subregion is carried out temperature acquisition;

Control module 3 is used for the associated configuration by the temperature of being gathered and said hot subregion and other subregions, calculates the radiation parameter of heat-sink unit in the said hot subregion;

Heat-sink unit 4 is used for dispelling the heat according to the said radiation parameter that control module issues.

Communication facilities inside is divided into a plurality of hot subregions.The embodiment of the invention does not limit the partition method to communication facilities.The embodiment of the invention can be carried out hot subregion to communication facilities according to the distribution of slot in the communication facilities; Or carry out hot subregion, or be to carry out hot subregion according to the distance of the internal module of communication facilities according to the simulation or the actual distribution situation of communication facilities heat in operational process.Each hot subregion comprises at least one temperature acquisition point; Comprise at least one heat-sink unit in each hot subregion; Said heat-sink unit can be fan or cooling fan, and temperature collecting cell carries out temperature acquisition to each temperature acquisition point at interval according to regular time.

For further guaranteeing the reliability of communication apparatus, shown in figure 11, cooling system generally adopts the backup radiating mode of N+M; So-called N+M backup; Refer to that N heat-sink unit can satisfy the heat radiation of communication apparatus, but an actual disposition N+M heat-sink unit, when some heat-sink unit fault wherein; Remaining heat-sink unit still can guarantee the heat radiation of communication apparatus, the hot subregion of the embodiment of the invention with N+M heat-sink unit uniform distribution to each hot subregion.

The associated configuration of hot subregion and other subregions has been indicated the influence degree of other subregions to said hot subregion heat radiation, and this influence degree can be based on experience or based on to the calorimetric analysis between the hot subregion.For example set two coefficients relations between the subregion, confirm the size of this coefficient with the distance of hot subregion distance, the radiation parameter influence between big more two the hot subregions of coefficient is big more.The final radiation parameter of hot subregion not only depends on the temperature of this subregion; The temperature that also depends in advance configuration and other hot subregions simultaneously; It is required to make the radiation parameter of a hot subregion can not only satisfy the heat radiation of this subregion, and can influence and assist hot subregion associated therewith.Wherein, said radiation parameter can be the rotating speed of fan, or the power of fan and other parameter that can quantize heat-sinking capability.Control module calculates the radiation parameter of heat-sink unit in the said hot subregion according to the associated configuration of the temperature of being gathered and said hot subregion and other subregions.

Heat-sink unit is the execution unit of device interior heat radiation, and the interior heat-sink unit of hot subregion can be made up of one or more groups fan.Heat-sink unit carries out work according to the said radiation parameter that control module issues, thereby communication facilities is dispelled the heat.

The cooling system of the communication facilities that the embodiment of the invention provides, it is required to make the heat-sink unit of this hot subregion can not only satisfy the heat radiation of this subregion, and can influence and assist hot subregion associated therewith to dispel the heat, and guarantees the efficient and the reliability of heat radiation.Like this,, can transfer other subregions assistance heat radiations that have associated configuration with this subregion, guarantee the demand of heat radiation, improve the reliability of dispelling the heat even when high temperature or high temperature alarm appear in a hot subregion.

Further, embodiment of the invention control module comprises initial radiation parameter computing module, related radiation parameter computing module and total radiation parameter computing module; Wherein, initial radiation parameter computing module is used for obtaining according to the temperature of said hot subregion the initial radiation parameter of heat-sink unit in this hot subregion; Related radiation parameter computing module is used for confirming the related radiation parameter of the interior heat-sink unit of said hot subregion by the initial radiation parameter of said other subregions and pre-configured other subregions and the degree of association of said hot subregion; Total radiation parameter computing module is used for according to the radiation parameter of said initial radiation parameter with heat-sink unit in said related radiation parameter is confirmed said hot subregion.

The embodiment of the invention is divided into a plurality of hot subregions according to interior veneer of communication equipment quantity with communication facilities, and each hot subregion comprises at least one veneer, and each veneer comprises at least one temperature acquisition point.The embodiment of the invention adopts fan as heat-sink unit, and each hot subregion comprises a plurality of fans, and the rotating speed of fan is as radiation parameter.

The specific practice that the initial speed of the embodiment of the invention calculates is: the higher limit and the lower limit that simulate the local area fan speed-regulating according to the heat-sinking capability of each hot subregion self; At a kind of linear speed regulation algorithm of the interval employing of the upper limit value and lower limit value of fan speed-regulating; Temperature value is corresponding with the rotation speed of the fan value; Can obtain the tachometer value of each temperature acquisition point, relatively the corresponding tachometer value of temperature value of all temperature acquisition points on the veneer confirms that the tachometer value of this veneer internal fan is the maximal value in the tachometer value of all temperature acquisition points on this veneer; If this maximal value is littler than speed governing lower limit; Adopt the speed governing lower limit of subregion, if bigger than speed governing higher limit, the speed governing higher limit of employing subregion; Tachometer value with all said veneer fans in the subregion reports then; Again the tachometer value of all veneer fans in the subregion is made comparisons afterwards; Confirm the initial speed of this subregion; Its value is the maximal value in the tachometer value of all veneer fans, and fan carries out VSC according to said initial speed as the rotating speed of all corresponding fans of this subregion.

Before cooling system dispels the heat, need communication facilities is carried out administration configuration the associate feature of a hot subregion of configuration and other hot subregions.Particularly, the configuration of each hot subregion comprises the threshold value of this hot subregion; Confirm and other hot subregions of the influential relation of this hot subregion that said other subregions are the related subregion of said hot subregion; The degree of association of said related subregion and this hot subregion.In case wherein the meaning of threshold value is that the radiation parameter of heat-sink unit in the subregion surpasses this value, then needs related subregion support heat radiation to this hot subregion; Definite principle of related subregion is that the heat diffusion of a hot subregion has produced influence to the temperature of another hot subregion; The configuration of the degree of association has embodied the degree of this influence relation, and the big more expression temperature of the degree of association interacts big more, otherwise, then little.Based on above-mentioned configuration, when heat-sink unit dispelled the heat to other hot subregions in the hot subregion, extra additional heat-sinking capability was related radiation parameter, and the embodiment of the invention is specially related rotating speed.

According to above-mentioned related zone configuration; Related radiation parameter computing module is confirmed the related subregion that hot subregion is all; Afterwards each related subregion is judged; Judge promptly whether the initial speed of each related subregion internal fan surpasses the threshold value of this association subregion internal fan; When the initial speed of related subregion internal fan does not have to surpass the threshold value of this association subregion fan, represent that the initial speed of this association subregion fan can guarantee the radiating requirements in this association subregion, do not need the fan in other hot subregions to assist heat radiation; When the initial speed of related subregion internal fan equaled or exceeded this threshold value, the relevant parameter computing module was according to the temperature and the degree of association compute associations rotating speed of related subregion.

Rise or constant situation for temperature in the hot subregion, the add up related rotating speed of initial speed and each related subregion of total radiation parameter computing module issues total rotating speed to this hot subregion internal fan, and fan carries out work according to total rotating speed and dispels the heat.

Further, to the situation that temperature in the hot subregion descends, embodiment of the invention control module also comprises, the additional heat parameter calculating module is used for then confirming the additional heat parameter by the coefficient of temperature drop-out value and setting if temperature reduces in the said hot subregion.

Particularly, if temperature reduces in the hot subregion, the additional heat parameter calculating module is confirmed the shake rotating speed of hot subregion internal fan by the shake coefficient of temperature drop-out value and setting.Said shake rotating speed is to prevent the descend shake of too fast generation of rotation speed of the fan, and except that radiating requirements additional rotating speed, make the even reduction of speed of fan.

The add up value of shake rotating speed, initial speed and related rotating speed of hot subregion of total radiation parameter computing module issues rotating speed to fan, and fan carries out the work heat radiation according to total rotating speed.

For understanding the embodiment of the invention more intuitively; Figure 12 provides the system construction drawing of the embodiment of the invention; Dotted line is represented the zone of hot subregion among the figure, between each hot subregion not with physical isolation as differentiation, but mark the logic boundary with the heat distribution or the distribution of fan.Further, the cooling system of embodiment of the invention communication facilities comprises mixed wind chamber, and mixing the wind chamber is an inner area of space of cooling system, is used for the air quantity of each fan is mixed, and makes air quantity fully mobile, better plays a role.The cooling system of the communication facilities that the embodiment of the invention provides; Realize the differentiation speed governing between the hot subregion; Make the fan of each hot subregion not only satisfy the radiating requirements of self; Can also heat radiation support be provided to other hot subregions simultaneously, when reducing energy consumption, guarantee the reliability of equipment cooling based on prior art.Further, for the speed governing of hot subregion, with reference to last time the temperature acquisition value carry out speed governing, avoid fan shake, further improved the reliability of heat radiation.

Embodiment seven

The embodiment of the invention is to the heat radiation abnormal conditions of cooling system, and on embodiment five and six bases, embodiment of the invention control module further comprises:

The temperature warning processing module; Be used for when said hot subregion is in the temperature warning state; Make that heat-sink unit dispels the heat with the higher limit of radiation parameter in the said hot subregion, and make and carry out with said hot subregion that heat-sink unit dispels the heat with the higher limit of radiation parameter in other subregions of associated configuration.

Particularly, the temperature warning processing module makes hot subregion internal fan rotate with the speed governing higher limit, and related subregion internal fan rotates with the speed governing higher limit.

When occurring getting into the abnormality processing state when unusual in the equipment, when be temperature warning unusually, the interior heat-sink unit of the related subregion with it of hot subregion dispels the heat with the higher limit of speed governing, can carry out fast cooling with this hot subregion of assurance when said.

Further, the alarm of heat-sink unit increases rotating speed in the hot subregion of temperature alert record module records.

Further; Embodiment of the invention control module also comprises rotating speed choice module; Be used for when said hot subregion temperature warning is removed; And when the initial radiation parameter of heat-sink unit is greater than the threshold value of this hot subregion of setting in the said hot subregion; And the initial radiation parameter of heat-sink unit makes in said other subregions that heat-sink unit all dispels the heat with the initial radiation parameter of heat-sink unit in the said hot subregion in the heat-sink unit and said hot subregion when having the initial radiation parameter of heat-sink unit in other subregions of associated configuration with this hot subregion in the said hot subregion.

More particularly, if hot subregion temperature warning is removed the initial speed of rotating speed choice module comparative heat subregion internal fan and the threshold value of this hot subregion.

Increase after the rotating speed if the initial speed of hot subregion internal fan, then deducts alarm smaller or equal to the threshold value of this hot subregion, make hot subregion get into normal mode of operation immediately, this hot subregion internal fan dispels the heat with the initial speed of this hot subregion.

If the initial speed of hot subregion internal fan is greater than the threshold value of this hot subregion, the then initial speed of the initial speed of comparative heat subregion internal fan and related subregion internal fan.

If the initial speed of hot subregion internal fan then makes related subregion internal fan and hot subregion internal fan all rotate with the initial speed of hot subregion internal fan more than or equal to the initial speed of related subregion internal fan.The fan of the related subregion of this hot subregion is dispelled the heat with the rotating speed that is higher than related section post need, is to avoid related subregion internal fan to reduce rapidly to shake because of rotating speed.

If the initial speed of hot subregion internal fan is less than the initial speed of this association subregion internal fan, then the related subregion of this hot subregion deducts alarm increases rotating speed, gets into normal mode of operation immediately.

The heat sink conception of being taked under a kind of abnormal patterns temperature warning situation that the embodiment of the invention is dispelled the heat to communication facilities; Can in time tackle the emergency case of device interior, when appearance temperature is alarmed, hot subregion internal fan and all heat radiations at full speed of related subregion internal fan; Temperature warning district temperature is descended rapidly; When temperature warning is removed,, carry out the rotating speed transition between normal mode or normal and the alert mode according to rotating speed and temperature conditions; Avoid shake, further improved the reliability of heat radiation.

Further; Embodiment of the invention control module comprises that also temperature loses processing module; Temperature is lost processing module; Be used for when said hot subregion is in the temperature acquisition lost condition, make in the said hot subregion heat-sink unit, and remove and this hot subregion exists other subregions of associated configuration and the association status of this hot subregion with the higher limit heat radiation of radiation parameter.

Particularly, the temperature acquisition lost condition exists one or more temperature acquisition points to lose and the getting in touch of harvester in the instant heating subregion.This situation may cause the temperature of the final collection of harvester in this hot subregion can not truly reflect the practical situation of device interior; So control module takes worst case to handle; Make the interior heat-sink unit of this hot subregion with the heat radiation of speed governing higher limit, to satisfy the radiating requirements of this hot subregion, still for avoiding unnecessary energy consumption; The related subregion of this hot subregion is removed the incidence relation with this hot subregion, the hot partition recovery temperature acquisition of losing up to temperature acquisition.

When temperature acquisition recovered, the rotating speed of hot subregion internal fan returned to total rotating speed that this hot subregion temperature issues during the last temperature acquisition before losing, and got into the normal mode of operation of communication facilities heat radiation immediately.

The heat sink conception of being taked under the another kind of abnormal patterns temperature loss situation to the communication facilities heat radiation can in time be tackled the emergency case of device interior, has further improved the reliability of heat radiation.

The above; Be merely embodiment of the present invention, but protection scope of the present invention is not limited thereto, any technician who is familiar with the present technique field is in the technical scope that the present invention discloses; Can expect easily changing or replacement, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of said claim.

Claims

1. the heat dissipating method of a communication facilities is characterized in that, comprising:

2. according to the heat dissipating method of the described communication facilities of claim 1, it is characterized in that said associated configuration by the temperature of being gathered and said hot subregion and other subregions is calculated the radiation parameter of heat-sink unit in the said hot subregion, comprising:

Obtain the initial radiation parameter of heat-sink unit in this hot subregion according to the temperature of said hot subregion;

By the initial radiation parameter of heat-sink unit in said other subregions and pre-configured other subregions and the degree of association of said hot subregion, confirm the related radiation parameter of heat-sink unit in the said hot subregion;

According to the radiation parameter of said initial radiation parameter with heat-sink unit in said related radiation parameter is confirmed said hot subregion.

3. according to the heat dissipating method of the described communication facilities of claim 2, it is characterized in that,, calculate the radiation parameter of heat-sink unit in the said hot subregion, also comprise by the associated configuration of the temperature of being gathered and said hot subregion and other subregions:

If temperature reduces in the said hot subregion, then confirm the additional heat parameter by the coefficient of temperature drop-out value and setting;

Add up the value of said additional heat parameter, said initial radiation parameter and said related radiation parameter as the radiation parameter of said hot subregion.

4. according to the heat dissipating method of claim 1 or 2 described communication facilitiess, it is characterized in that this method also comprises:

If said hot subregion is in the temperature acquisition lost condition, heat-sink unit and is removed and this hot subregion exists other subregions of associated configuration and the association status of this hot subregion with the higher limit heat radiation of radiation parameter in the then said hot subregion.

5. the cooling system of a communication facilities is characterized in that, this system comprises:

Said control module also comprises:

6. according to the cooling system of the described communication facilities of claim 5, it is characterized in that said control module comprises initial radiation parameter computing module, related radiation parameter computing module and total radiation parameter computing module; Wherein,

Said initial radiation parameter computing module is used for obtaining according to the temperature of said hot subregion the initial radiation parameter of heat-sink unit in this hot subregion;

Said related radiation parameter computing module is used for confirming the related radiation parameter of heat-sink unit in the said hot subregion by the initial radiation parameter of said other subregions and pre-configured other subregions and the degree of association of said hot subregion;

Said total radiation parameter computing module is used for according to the radiation parameter of said initial radiation parameter with heat-sink unit in said related radiation parameter is confirmed said hot subregion.

7. according to the cooling system of the described communication facilities of claim 6, it is characterized in that said control module also comprises:

The additional heat parameter calculating module is used for then confirming the additional heat parameter by the coefficient of temperature drop-out value and setting if temperature reduces in the said hot subregion.

8. according to the cooling system of each described communication facilities in the claim 5 to 7, it is characterized in that said control module also comprises:

Temperature is lost processing module; Be used for when said hot subregion is in the temperature acquisition lost condition; Make in the said hot subregion heat-sink unit with the higher limit heat radiation of radiation parameter, and remove and this hot subregion exists other subregions of associated configuration and the association status of this hot subregion.