CN107333444A - The radiator structure and method of a kind of equipment machine frame - Google Patents

Abstract

The present embodiments relate to technical field of communication equipment, more particularly to the radiator structure and method of a kind of equipment machine frame, to the size of the ventilation windowing by dynamic adjusting device machine frame, realize under conditions of machine frame wind speed and air quantity are constant, meet the radiating requirements of equipment machine frame.Control management unit B MC, is arranged on the first control unit of equipment machine frame tunnel inlet, and tunnel inlet includes multiple ventilation windowings, each at least one FRU of ventilation windowing correspondence；BMC, the power consumption for obtaining multiple FRU, and the first control signal to the first control unit is exported according to multiple FRU power consumption；First control unit, it is connected with BMC, the first control signal for receiving BMC transmissions, and the size of the corresponding windowings of divulging information of each FRU in multiple FRU is adjusted according to the first control signal, wherein, input to each FRU air force is directly proportional to the size of each self-corresponding ventilation windowings of each FRU.

Description

The radiator structure and method of a kind of equipment machine frame

Technical field

The present embodiments relate to radiator structure and the side of technical field of communication equipment, more particularly to a kind of equipment machine frame Method.

Background technology

As veneer operational capability and function gradually strengthen, board power consumption gradually increases, and is lifted in rotation speed of the fan and air quantity Under conditions of space is limited, the heat-sinking capability of equipment machine frame turns into bottleneck.

In traditional technical scheme, generally by way of reducing board power consumption or lifting means machine frame wind speed and air quantity The heat-sinking capability of lifting means machine frame.

But, the air channel perforate of legacy equipment machine frame is fixed, therefore inputs to equipment machine frame each Field Replaceable Unit The air quantity all same of (Field Replaceable Unit, FRU), but the different FRU of power required wind in practice Amount has differences, such that small-power FRU, the air quantity of acquisition is excessive, and the air quantity that high-power FRU is obtained is possible to discontented Sufficient radiating requirements, and cause overheat.In addition, lifting means machine frame wind speed and air quantity are mainly the fan by lifting means machine frame Rotating speed is realized, such that noise and the power consumption increase of equipment machine frame, on the other hand, by the side for reducing board power consumption Formula can reduce veneer performance.

The content of the invention

The application provides the radiator structure and method of a kind of equipment machine frame, to pass through the logical of dynamic adjusting device machine frame The size of wind windowing, to realize under conditions of machine frame wind speed and air quantity are constant, meets the radiating requirements of equipment machine frame.

To reach above-mentioned purpose, the application is adopted the following technical scheme that：

In a first aspect, the application provides a kind of radiator structure of equipment machine frame, including：Control administrative unit (Baseboard Management Controller, BMC), the first control unit of equipment machine frame tunnel inlet is arranged on, tunnel inlet includes Multiple ventilation windowings, each ventilation windowing at least one Field Replaceable Unit of correspondence FRU in multiple ventilation windowings；Control management Unit B MC, the power consumption for obtaining multiple FRU, and controlled according to multiple FRU power consumption to the first control unit output first Signal；First control unit, is connected with BMC, the first control signal for receiving BMC transmissions, and is believed according to the first control The size of the corresponding ventilation windowing of each FRU in number multiple FRU of adjustment, wherein, input to each FRU air force with it is each The size of each self-corresponding ventilation windowings of FRU is directly proportional.

The embodiment of the present invention provides a kind of radiator structure of equipment machine frame, passes through the tunnel inlet arrangement in equipment machine frame the One control unit, and the power consumption of each FRU in multiple FRU is obtained by BMC, because each FRU power consumption there may be difference Different, thus each FRU radiating has differences, and the air force and each FRU of same input to each FRU are each self-corresponding logical The size of wind windowing is directly proportional, and next FRU of ordinary circumstance power consumption is bigger, and the air quantity required for a FRU is also bigger, I.e. air quantity is directly proportional to FRU power consumption, therefore BMC exports the first control signal according to multiple FRU power consumption to the first control unit, Because the first control unit is arranged on the tunnel inlet of equipment machine frame, such first control unit can be according to the first control signal Dynamically adjust the size of the corresponding ventilation windowings of each FRU.Therefore, the first control unit can be incited somebody to action according to the first control signal Need the ratio of the size adjustment of the corresponding ventilation windowings of FRU of larger air quantity larger, it would be desirable to which the FRU of smaller air quantity is corresponding logical The size adjustment of wind windowing it is smaller, thus avoid in conventional solution, due to the size of ventilation windowing fix so as to The FRU of smaller air quantity the need for causing, the air quantity inputted in real process is excessive, and need larger air quantity FRU input to Its air quantity, which can not increase, causes problems of excessive heat.And the application can be in the constant bar of the wind speed and air quantity for not changing equipment machine frame Under part, the radiating requirements of equipment machine frame are met.

With reference in a first aspect, in the first possible implementation of first aspect, the first control unit includes multiple Each control unit is arranged on the entrance of a ventilation windowing in multiple ventilation windowings in control unit, multiple control units Place, each control unit is used for the size for adjusting each self-corresponding ventilation windowing, and the first control signal includes being multiple control units The configured information of part configuration, configured information is used to indicate that each control unit to adjust each self-corresponding ventilation in multiple control units The size of windowing.By setting a corresponding control unit for each ventilation windowing, it can so cause by each divulging information Corresponding control unit open a window according to the configured information being respectively received, the size realization to ventilation windowing is accurately adjusted.

With reference to the first possible implementation of first aspect or first aspect, second in first aspect is possible In implementation, ventilation windowing includes deep bead and backboard, and control unit includes：Motor and rotating shaft, rotating shaft are connected with deep bead, Motor is used to be rotated according to the first control signal drive shaft, and rotating shaft is used to drive deep bead to rotate by the driving of motor, with The angle between deep bead and backboard Z axis is adjusted, to adjust the size of ventilation windowing.Only by adjusting deep bead and backboard Z axis Between angle, you can realize to ventilation windowing size adjustment.

Any one of second of possible implementation with reference to first aspect to first aspect, the 3rd of first aspect the Plant in possible implementation, radiator structure provided in an embodiment of the present invention also includes：Second control unit, is connected with BMC, uses In the temperature for detecting multiple FRU, and it is determined that the temperature in multiple FRU in the presence of at least one FRU is more than or equal to default temperature When spending, the second control signal is sent to BMC, the second control signal is used to indicate that BMC is readjusted at least one FRU each The size of the corresponding ventilation windowings of FRU.Because the power consumption of each FRU in real process there may be difference, thus each FRU Radiating have differences, therefore, not all FRU temperature can be less than default warm after the size of adjustment ventilation windowing Degree, therefore by detecting multiple FRU temperature, and it is determined that the temperature in the presence of at least one FRU is more than or equal to preset temperature When, the size of at least one FRU ventilation windowing can be readjusted, to cause FRU temperature to be reduced to below preset temperature.

Any one of the third possible implementation with reference to first aspect to first aspect, the 4th of first aspect the Plant in possible implementation, the second control unit includes：Detection part and processing component, detection part are multiple for detecting FRU temperature, and multiple FRU temperature is sent to processing component；Processing component, for sending out the detection part received The multiple FRU sent temperature performs an analysis, and it is determined that the temperature in multiple FRU in the presence of at least one FRU is more than or equal in advance If during temperature, the second control signal is sent to BMC.The temperature for the FRU for being sent detection part by processing component is processed, so BMC processing load can be reduced by sending the second control signal to BMC afterwards.

Any one of the 4th kind of possible implementation with reference to first aspect to first aspect, the 5th of first aspect the Plant in possible implementation, radiator structure provided in an embodiment of the present invention also includes：Second control unit, is connected with BMC, uses BMC is sent in the temperature for detecting multiple FRU, and by multiple FRU temperature；BMC, is additionally operable to receive the second control unit hair The multiple FRU sent temperature, and it is determined that the temperature in multiple FRU in the presence of at least one FRU is more than or equal to preset temperature When, readjust the size of the ventilation windowing of each FRU at least one FRU.In this manner, it can be judged by BMC Temperature with the presence or absence of at least one FRU is more than or equal to preset temperature, and it is determined that the temperature in the presence of at least one FRU is more than Or during equal to preset temperature, readjust the size of the ventilation windowing of each FRU at least one FRU.

Any one of the 5th kind of possible implementation with reference to first aspect to first aspect, the 6th of first aspect the Plant in possible implementation, radiator structure provided in an embodiment of the present invention also includes：Second control unit, is connected with BMC, uses BMC is sent in the temperature for detecting multiple FRU, and by multiple FRU temperature；BMC, is additionally operable to receive the second control unit hair The multiple FRU sent temperature, and it is determined that the temperature in multiple FRU in the presence of at least one FRU is more than or equal to preset temperature When, readjust the size of the ventilation windowing of each FRU at least one FRU.By detecting each FRU temperature, so when When temperature is more than preset temperature, the size of the corresponding ventilation windowings of each FRU can be readjusted, make it that each FRU can be with Cooled by institute's required airflow, to cause the temperature after cooling to meet preset requirement.

Any one of the 6th kind of possible implementation with reference to first aspect to first aspect, the 7th of first aspect the Plant in possible implementation, control management unit B MC, there is the first FRU work(in the power consumption specifically for determining multiple FRU Consumption is more than the first predetermined threshold value, then is that the first control unit configures the first configured information, first configured information is used to indicate the One control unit increases the size of the corresponding ventilation windowings of the first FRU, and the first FRU is more than first for power consumption in multiple FRU to be preset Any one FRU of threshold value；BMC determines that the power consumption that there is the 2nd FRU in multiple FRU power consumption is less than the second predetermined threshold value, then It is configured to indicate that the first control unit reduces the second of the size of the corresponding ventilation windowings of the 2nd FRU and referred to for the first control unit Show information, the 2nd FRU is less than any one FRU of the second predetermined threshold value for power consumption in multiple FRU.By BMC according to each FRU Power consumption come indicate the first control unit increase or reduce each FRU it is each it is self-corresponding ventilation windowing size increase or drop It is low, the air quantity needed for corresponding ventilation windowing input accurately can be passed through for it according to each FRU power consumption.

Any one of the 7th kind of possible implementation with reference to first aspect to first aspect, the 8th of first aspect the Plant in possible implementation, the first control signal is that pulse width modulation (Pulse Width Modulation, PWM) is believed Number.

Second aspect, the embodiment of the present invention provides a kind of heat dissipating method of equipment machine frame, the radiating applied to equipment machine frame In structure, method provided in an embodiment of the present invention includes：Detect multiple Field Replaceable Unit FRU power consumption；According to multiple FRU Power consumption, determine the first control signal, the first control signal is used to indicate in the multiple FRU of adjustment that each FRU to be corresponding logical The size of wind windowing；According to the first control signal, the size of the corresponding windowings of divulging information of each FRU in multiple FRU is adjusted, wherein, Input to each FRU air force and be directly proportional to the size of each self-corresponding ventilation windowings of each FRU.

With reference to second aspect, in the first possible implementation of second aspect, according to the first control signal, adjustment The size of the corresponding windowings of divulging information of each FRU in multiple FRU, including：Determine the first control signal be used for indicate increase multiple FRU In the first FRU it is corresponding ventilation windowing size, then control the first FRU it is corresponding ventilation windowing current size increase, first FRU is more than any one FRU of the first predetermined threshold value for power consumption in multiple FRU；Determine the first control signal be used for indicate reduction The size of the corresponding ventilation windowings of 2nd FRU in multiple FRU, then control the current size of the corresponding ventilation windowings of the 2nd FRU to subtract Small, the 2nd FRU is less than any one FRU of the second predetermined threshold value for power consumption in multiple FRU.

With reference to the first possible implementation of second aspect or second aspect, second in second aspect is possible In implementation, according to the first control signal, the size of the corresponding windowings of divulging information of each FRU in multiple FRU is adjusted, in addition to： Determine the first control signal be used for indicate keep the size that the corresponding ventilations of the 3rd FRU open a window in multiple FRU constant, then control the The size of the corresponding ventilation windowings of three FRU is constant, and the 3rd FRU is pre- positioned at the second predetermined threshold value and first for power consumption in multiple FRU If any one FRU between threshold value.

Any one of second of possible implementation with reference to second aspect to second aspect, the 3rd of second aspect the Plant in possible implementation, the first control signal includes configuring for the corresponding control unit of the respective ventilation windowings of each FRU Configured information, according to the first control signal, adjust the size of the corresponding ventilation windowings of each FRU in multiple FRU, including：Root According to the configured information for the corresponding control unit configuration that opened a window for the respective ventilations of each FRU, each FRU is adjusted each self-corresponding logical The size of wind windowing.

Any one of the third possible implementation with reference to second aspect to second aspect, the 4th of second aspect the Plant in possible implementation, ventilation windowing includes deep bead and backboard, control unit includes motor and turn with motor connection Axle, rotating shaft is connected with deep bead, according to the configured information for the corresponding control unit configuration that opened a window for the respective ventilations of each FRU, The size of each self-corresponding ventilation windowings of each FRU is adjusted, including：Each motor is according to the finger being respectively received in multiple motors Show information, perform following steps, with the adjustment for the size for realizing self-corresponding ventilation windowing each to each FRU：In multiple motors A motor according to the configured information received, driving and the axis of rotation of a motor connection；Rotating shaft is in motor Under driving, the deep bead being connected with rotating shaft is driven to rotate, to adjust the angle between deep bead and backboard, to adjust ventilation windowing Size.

Any one of the 4th kind of possible implementation with reference to second aspect to second aspect, the 5th of second aspect the Plant in possible implementation, the first control signal includes at least one in the first configured information and the second configured information, root According to multiple FRU power consumption, the first control signal is determined, including：Determine that the power consumption in multiple FRU power consumption in the presence of the first FRU is big In the first predetermined threshold value, it is determined that for indicating that the first control unit increases the of the size of the corresponding ventilation windowings of the first FRU One configured information；Determine that the power consumption in multiple FRU power consumption in the presence of the 2nd FRU is less than the second predetermined threshold value, it is determined that second refers to Show information, the second configured information is used to indicate that the first control unit reduces the size of the corresponding ventilation windowings of the 2nd FRU, by first Configured information and/or second configured information are defined as the first control signal.

Any one of the 5th kind of possible implementation with reference to second aspect to second aspect, the 6th of second aspect the Plant in possible implementation, the first control signal also includes the 3rd configured information, according to multiple FRU power consumption, determines first Control signal, including：Determine that the power consumption in multiple FRU power consumption in the presence of the 3rd FRU is more than the second predetermined threshold value and less than first Predetermined threshold value, it is determined that for indicating that the first control unit keeps constant the 3rd of the size of the corresponding ventilation windowings of the first FRU Configured information, the 3rd FRU is more than the second predetermined threshold value and any one less than the first predetermined threshold value for power consumption in multiple FRU FRU。

Any one of the 6th kind of possible implementation with reference to second aspect to second aspect, the 7th of second aspect the Plant in possible implementation, method provided in an embodiment of the present invention also includes：Obtain multiple FRU temperature；It is determined that multiple When temperature in FRU temperature in the presence of at least one FRU is more than preset temperature, then each FRU at least one FRU is readjusted The size of corresponding ventilation windowing.

Brief description of the drawings

Fig. 1 is a kind of structural representation one of the radiator structure of equipment machine frame provided in an embodiment of the present invention；

Fig. 2 is a kind of structural representation two of the radiator structure of equipment machine frame provided in an embodiment of the present invention；

Fig. 3 is a kind of structural representation three of the radiator structure of equipment machine frame provided in an embodiment of the present invention；

Fig. 4 is a kind of schematic flow sheet one of the heat dissipating method of equipment machine frame provided in an embodiment of the present invention；

Fig. 5 is a kind of schematic flow sheet two of the heat dissipating method of equipment machine frame provided in an embodiment of the present invention.

Embodiment

Multiple in the embodiment of the present invention refer to two or more.

For the ease of clearly describing the technical scheme of the embodiment of the present invention, in an embodiment of the present invention, employ " the One ", the printed words such as " second " make a distinction to function and the essentially identical identical entry of effect or similar item, and those skilled in the art can To understand that the printed words such as " first ", " second " are not defined to quantity and execution order.

As shown in figure 1, Fig. 1 shows a kind of radiator structure of equipment machine frame, including：Control management unit B MC10, is set In the first control unit 30 of equipment machine frame tunnel inlet, tunnel inlet includes multiple ventilation windowings, every in multiple ventilation windowings Individual ventilation windowing at least one Field Replaceable Unit of correspondence FRU.

Wherein, control management unit B MC10, for obtain multiple FRU (for example, as shown in Figure 1 FRU20 and FRU40 power consumption), and the first control signal to the first control unit is exported according to multiple FRU power consumption.

It is understood that FRU power consumption can refer to FRU power output in the embodiment of the present invention.

First control unit 30, is connected with BMC10, the first control signal for receiving BMC10 transmissions, and according to the One control signal adjusts the size of the corresponding windowings of divulging information of each FRU in multiple FRU, wherein, the air quantity of input to each FRU is big The small size to each self-corresponding ventilation windowings of each FRU is directly proportional.

Optionally, the FRU in the embodiment of the present invention refer in communication equipment (for example, computer, server) some can be more The part changed.

Optionally, the power consumption of the FRU in the embodiment of the present invention can be understood as FRU caloric value, FRU power consumption Small, then the caloric value of the FRU is small, the bigger FRU of air quantity of input to FRU radiating effect is better.

The embodiment of the present invention provides a kind of radiator structure of equipment machine frame, passes through the tunnel inlet arrangement in equipment machine frame the One control unit, and the power consumption of each FRU in multiple FRU is obtained by BMC, due to inputting to each FRU air force It is directly proportional to the size of each self-corresponding ventilation windowings of each FRU, and next FRU of ordinary circumstance power consumption is bigger, this Air quantity required for FRU is also bigger, i.e., air quantity is directly proportional to FRU power consumption, therefore BMC is controlled according to multiple FRU power consumption to first Part processed exports the first control signal, because the first control unit is arranged on the tunnel inlet of equipment machine frame, such first control Part can dynamically adjust the size of the corresponding ventilation windowings of each FRU according to the first control signal.Therefore, the first control unit The ratio that part can adjust the size of the corresponding ventilation windowings of the FRU for needing larger air quantity according to the first control signal is larger, will Need the corresponding ventilation windowings of FRU of smaller air quantity size adjustment it is smaller, thus avoid in conventional solution, by The FRU of smaller air quantity is needed caused by the size fixation of ventilation windowing, the air quantity inputted in real process is excessive, and The FRU of larger air quantity is needed to input to its air quantity to increase and cause problems of excessive heat.And the application can not change equipment Under conditions of the wind speed and air quantity of machine frame are constant, the radiating requirements of equipment machine frame are met.

Can be multiple ventilation windowing one the first control unit 30 of configuration in the embodiment of the present invention, or Duo Getong Two or more ventilation windowing one control unit of configuration in wind windowing, certainly, in order to realize to each ventilation windowing Size accurately adjust, or a control unit is respectively configured in each ventilation windowing in multiple ventilation windowings, to adjust The size of whole each ventilation windowing.

Optionally, the first control unit is included in multiple control units, multiple control units each in the embodiment of the present invention Control unit is arranged on the porch of a ventilation windowing in multiple ventilation windowings, and each control unit is used to adjust each right The size for the ventilation windowing answered, the first control signal includes the configured information configured for multiple control units, and configured information is used for Indicate the size of each each self-corresponding ventilation windowing of control unit adjustment in multiple control units.

Ventilation windowing in the embodiment of the present invention includes deep bead and backboard, specifically, in the embodiment of the present invention and each The corresponding control unit of ventilation windowing, for by adjust the angle between corresponding with the control unit deep bead and backboard come Realize the adjustment of ventilation windowing size.

In actual applications, control unit can realize that the application is not limited this, exemplary using a variety of implementations , in the application, control unit includes：Motor and rotating shaft, wherein, rotating shaft is connected with deep bead, and motor is used for according to first Control signal drive shaft is rotated, and rotating shaft is used to drive deep bead to rotate by the driving of motor, to adjust deep bead and backboard Z Angle between axle, to adjust the size of ventilation windowing.

Exemplary, the motor in the application can be stepper motor.

It is understood that can be flexibly connected between rotating shaft and deep bead in the application, or integrative-structure, The application to this without limit, as long as rotating shaft can be driven under the driving of motor deep bead rotation, so as to adjust deep bead Angle between backboard Z axis.In real process motor can be realized by adjusting the angle of rotating shaft deep bead and The change of angle between backboard Z axis.

It should be noted that in real process, the rotating shaft in the application can also be connected with backboard, in such case Under, rotating shaft is used to drive backboard to rotate under the driving of motor, so as to change the angle between deep bead and backboard Z axis, with reality The adjustment for the size that now opened a window to ventilation.

It should be noted that the angle between deep bead and backboard Z axis in the embodiment of the present invention refers to deep bead and the back of the body Angle between the Z-direction of plate.

Angle of the size between deep bead and backboard Z axis of windowing of being divulged information in the embodiment of the present invention is determined, specifically, logical Angle between the size and deep bead and backboard Z axis of wind windowing is inversely proportional, namely the angle between deep bead and backboard Z axis is got over Greatly, ventilation windowing is smaller, and the angle between deep bead and backboard Z axis is smaller, and ventilation windowing is bigger.Specifically, when deep bead with When backboard Z axis is parallel, the angle between deep bead and backboard Z axis is minimum, and so ventilation windowing is maximum, when deep bead and backboard Z When vertical between axle, the angle between deep bead and backboard Z axis is maximum, and so ventilation windowing is minimum.

The size of angle between deep bead and backboard Z axis determines the size of ventilation windowing, for example, deep bead and backboard Angle between Z axis is bigger, and ventilation windowing is smaller, and the angle between deep bead and backboard Z axis is smaller, and ventilation windowing is bigger, because This, the adjustment of the size of the corresponding ventilation windowings of each FRU of the first 30 pairs of control unit can be accomplished by the following way：If the One control unit 30 determines that the first control signal is used for the size increase for indicating the corresponding ventilation windowings of a FRU, then this The corresponding motor control rotating shaft adjustment angles of FRU, to cause the deep bead being connected with rotating shaft to rotate, so that deep bead and the back of the body Angle between plate Z axis reduces.Or, if the first control unit 30 determines that the first control signal is used to indicate a FRU correspondence The size of ventilation windowing reduce, then the corresponding motor control axis of rotation of a FRU, to adjust the angle of rotating shaft so that Obtain the deep bead being connected with rotating shaft to rotate, so that the angle increase between deep bead and backboard Z axis.

It is understood that the corresponding ventilation windowings of each FRU in the application are respectively provided with the beginning of one in an initial condition The size of beginning, the adjustment to the size of each ventilation windowing can, based on the initial size adjustment of each ventilation windowing, also may be used It is adjusted with the size for being the previous moment based on each ventilation windowing current time, the application is to this without limiting.

It is understood that the adjustment for the size that opened a window in the live load in order to reduce motor, the application to each ventilation It is based on the size at the previous moment at each ventilation windowing current time.

Due to after the size adjustment of BMC ventilation windowings corresponding to each FRU, although input to each FRU wind Amount size is directly proportional to the size for windowing of divulging information, and the size of so ventilation windowing is bigger, and input is extremely corresponding with ventilation windowing FRU air quantity is more, and the size for windowing of divulging information is smaller, and input is extremely smaller with the corresponding FRU of ventilation windowing air quantity, still, The temperature that there is likely to be part FRU is still unsatisfactory for preset requirement, therefore, as shown in Fig. 2 provided in an embodiment of the present invention dissipate Heat structure also includes：Second control unit 50, is connected with BMC10, the temperature for detecting multiple FRU, and it is determined that multiple When temperature in FRU in the presence of at least one FRU is more than or equal to preset temperature, the second control signal, the second control are sent to BMC Signal is used for the size for indicating that BMC readjusts the corresponding windowings of divulging information of each FRU at least one FRU.

It is understood that the second control unit 50 detects that multiple FRU temperature refers in the embodiment of the present invention：Second control Part 50 processed detects the temperature of each FRU in multiple FRU.

The embodiment of the present invention, without limiting, can be arranged as required to default temperature to preset temperature in real process Degree.

Certainly, one preset temperature of identical can be configured for each FRU in the embodiment of the present invention, so if it is determined that multiple When each FRU temperature is more than or equal to preset temperature in FRU, it is determined that need to readjust the corresponding ventilations of each FRU and open The size of window.

Because the power of each FRU in real process is different, therefore, each FRU radiating is every in control there is also difference The demand for the preset temperature that individual FRU temperature is less than can be that each FRU is set according to each FRU power there is also difference Put a corresponding default sub- temperature, then, preset temperature can refer to the corresponding default sub- temperature of each FRU.

Exemplary, the second control unit 50 in multiple FRU specifically for it is determined that exist each at least one FRU When FRU temperature is more than or equal to each self-corresponding default sub- temperature, the second control signal is sent to BMC.

The second control unit 50 can only detect each FRU temperature in the embodiment of the present invention, can also detect often Judge whether each FRU temperature is more than or equal to preset temperature, due under both of these case, BMC place after individual FRU temperature Reason mode has differences, therefore, is discussed in detail below with reference to concrete condition：

In a kind of possible implementation, the second control unit 50 includes：Detection part 301 and processing component 302, its In, detection part 301, the temperature for detecting multiple FRU, and multiple FRU temperature is sent to processing component 302.Place Part 302 is managed, the temperature of multiple FRU for being sent to the detection part received performs an analysis, and it is determined that in multiple FRU In the presence of at least one FRU temperature be more than or equal to preset temperature when, to BMC send the second control signal.

Optionally, the detection part 301 in the embodiment of the present invention can be temperature-detecting device (for example, TEMP Device), or other can be used for detect FRU temperature device, the application to this without limit.

Processing component 302 can for single-chip microcomputer, processor, microprocessor etc. it is any detection part can be sent it is multiple FRU temperature performs an analysis, and determines that the temperature in multiple FRU with the presence or absence of at least one FRU is more than or equal to preset temperature Device.

It is appreciated that the second control unit 50 can periodically or in real time be detected according to predetermined period in the application Multiple FRU temperature, and according to predetermined period periodically multiple FRU temperature is performed an analysis with determine in multiple FRU whether Temperature in the presence of at least one FRU is more than or equal to preset temperature, or after multiple FRU temperature is periodically detected, By the multiple FRU detected temperature be sent to EMC by EMC determine in multiple FRU with the presence or absence of at least one FRU temperature it is big In or equal to preset temperature.

It should be noted that in the application can be each FRU or be power identical FRU configure one second control Part, or same second control unit is configured in multiple FRU, the application is to this without limiting.

In alternatively possible implementation, the second control unit 50 is connected with BMC10, the temperature for detecting multiple FRU Degree, and multiple FRU temperature is sent to BMC10；BMC10, is additionally operable to receive multiple FRU that the second control unit 50 is sent Temperature, and it is determined that in multiple FRU in the presence of at least one FRU temperature be more than or equal to preset temperature when, readjust The size of each FRU ventilation windowing at least one FRU.In such a implementation, the second control unit 50 can be wrapped only Include detection part 301.

Optionally, the power consumption that there is the first FRU in BMC10, the power consumption specifically for determining multiple FRU is preset more than first Threshold value, it is determined that the first control signal includes the first configured information, the first configured information is used to indicate that the first control unit increases The size of the corresponding windowings of divulging information of big first FRU, the first FRU is more than any one of the first predetermined threshold value for power consumption in multiple FRU Individual FRU；And the power consumption in the power consumption for determining multiple FRU in the presence of the 2nd FRU is less than the second predetermined threshold value, it is determined that first Control signal includes the second configured information, and the second configured information is used to indicate that the 2nd FRU of the first control unit reduction is corresponding The size of ventilation windowing, the 2nd FRU is less than any one FRU of the second predetermined threshold value for power consumption in multiple FRU.

Optionally, the BMC in the embodiment of the present invention is additionally operable to, and determines there is the 3rd FRU power consumption in multiple FRU power consumption More than the second predetermined threshold value and less than the first predetermined threshold value, it is determined that the first control signal includes the 3rd configured information, the 3rd Configured information is used to indicate that the first control unit keeps the size of the corresponding ventilation windowings of the 3rd FRU constant.

Optionally, the embodiment of the present invention to the second predetermined threshold value, the first predetermined threshold value and the 3rd predetermined threshold value without Limit, can be set as needed in real process.

As shown in figure 4, Fig. 4 shows a kind of heat dissipating method of equipment machine frame provided in an embodiment of the present invention, this method should In radiator structure for the equipment machine frame described by the combination such as Fig. 1-Fig. 3 either figures and above-described embodiment, such as Fig. 4 institutes Show, this method includes：

S101, the multiple Field Replaceable Unit FRU of detection power consumption.

Specifically, the step S101 in the application can be realized by the BMC in the radiator structure of equipment machine frame, this Shen The multiple Field Replaceable Unit FRU mode of power consumption is please detected to BMC without limiting, it is exemplary, can be by following Mode is realized：Exemplary, obtain each FRU power output, you can it is determined that each self-corresponding power consumptions of each FRU.

Certainly, in order to accurately export first of the size for adjusting the corresponding ventilation windowings of each FRU in multiple FRU BMC can also be included in control signal, the step S101 of the application and detect each FRU in multiple Field Replaceable Unit FRU Whether temperature, the so temperature and power consumption with reference to each FRU can be determined more accurately out needs to adjust each ventilation windowing Size, and the size adjustment of each ventilation windowing angle.

S102, the power consumption according to multiple FRU, determine the first control signal, and first control signal is used to indicate that adjustment is more The size of the corresponding windowings of divulging information of each FRU in individual FRU.

S103, according to the first control signal, adjust the size of the corresponding ventilation windowings of each FRU in multiple FRU, wherein, Input to each FRU air force and be directly proportional to the size of each self-corresponding ventilation windowings of each FRU.

It is understood that for due to being more than the FRU of the first predetermined threshold value for each power consumption in multiple FRU, increase Or the mode and principle all same of the size of its corresponding ventilation windowing are reduced, therefore, the application is existing with the first FRU and second Illustrated exemplified by FRU, and without any indicative implication.

Optionally, the step S103 in the embodiment of the present invention can be accomplished by the following way：

S1031, determine the first control signal be used for indicate increase multiple FRU in the corresponding ventilations of the first FRU open a window it is big It is small, then the current size increase of the corresponding ventilation windowings of the first FRU is controlled, it is pre- that the first FRU is more than first for power consumption in multiple FRU If any one FRU of threshold value.

It is exemplary, because ventilation windowing is made up of deep bead and backboard, and ventilation windowing size be deep bead and The region of angle between backboard Z axis, therefore the size of increase ventilation windowing, that is, reduce the angle between deep bead and backboard Z axis, Therefore step S1031 can adjust the angle of rotating shaft, to cause deep bead and backboard during implementing by motor Angle between Z axis reduces.

S1032, determine the first control signal be used for indicate reduction multiple FRU in the corresponding ventilations of the 2nd FRU open a window it is big It is small, then control the current size of the corresponding ventilation windowings of the 2nd FRU to reduce, it is pre- that the 2nd FRU is less than second for power consumption in multiple FRU If any one FRU of threshold value.

Exemplary, step S1032 can specifically be accomplished by the following way：The angle of rotating shaft can be adjusted by motor Degree, to cause the angle between deep bead and backboard Z axis to increase.

Optionally, because simultaneously the size of the corresponding ventilation windowings of not all FRU is required to adjustment, example in real process Such as, input is just met for the FRU of a certain power radiating requirements to the FRU of a certain power air force, therefore, in reality During can ventilation windowing corresponding to the FRU of a certain power size without adjustment, therefore, the embodiment of the present invention Step S103 can also be accomplished by the following way：

S1033, determine the first control signal be used for indicate keep that corresponding ventilations of the 3rd FRU in multiple FRU open a window it is big Small constant, then the size for controlling the corresponding ventilations of the 3rd FRU to open a window is constant, and it is pre- that the 3rd FRU is located at second for power consumption in multiple FRU If any one FRU between threshold value and the first predetermined threshold value.

Exemplary, the ventilation windowing in the embodiment of the present invention includes deep bead and backboard, therefore when the first control signal , can be by controlling deep bead and the back of the body during for indicating to keep the size of the corresponding ventilation windowings of the 3rd FRU in multiple FRU constant Angle between plate Z-direction is constant to be realized.

If it should be noted that in the embodiment of the present invention in multiple FRU the size of the corresponding ventilation windowing of each FRU by one Individual first control unit is adjusted, then needs to carry each ventilation being adjusted in the first control signal and open a window corresponding FRU's The mark for each ventilation windowing for identifying or being adjusted, wherein, FRU mark is used for one FRU of unique identification, ventilation windowing Mark be used for the ventilation windowing of unique identification one.

It is understood that carrying the mark for the corresponding FRU of each ventilation windowing being adjusted in the first control signal When, each ventilation being adjusted that is at least stored with the first control unit opens a window corresponding FRU mark and each self-corresponding logical Mapping relations between the mark of wind windowing.

If the size of the corresponding windowings of divulging information of each FRU is by a control unit (i.e. the first control unit bag in multiple FRU Include multiple control units, a control unit and a ventilation open a window) adjust, then it will can be carried in the first control signal Configured information be sent respectively to the ventilation that is adjusted and open a window corresponding control unit, it is corresponding to be opened a window by the ventilation being adjusted Control unit is adjusted according to the configured information being respectively received to the size of each self-corresponding ventilation windowing.

Or, the first control signal includes multiple configured informations, and each configured information can carry be adjusted each The corresponding FRU of ventilation windowing mark or the mark for each ventilation windowing being adjusted, accordingly even when needing what is be adjusted to lead to Open a window corresponding control unit of wind receives the first control signal, can also according to the FRU carried in configured information mark or The mark for each ventilation windowing that person is adjusted determines which is oneself corresponding configured information, so that correctly right to oneself The ventilation windowing answered is adjusted.

In order to which the size to each ventilation windowing is accurately adjusted, the first control signal in the embodiment of the present invention is including being The configured information of the corresponding control unit configuration of each respective ventilation windowings of FRU, then step S103 specifically can by with Under type is realized：

S1034, the configured information according to the corresponding control unit configuration that opened a window for the respective ventilations of each FRU, adjustment are every The size of individual each self-corresponding ventilation windowings of FRU.

Optionally, ventilation windowing includes deep bead and backboard, and control unit includes motor and the rotating shaft with motor connection, should Rotating shaft is connected with deep bead, and step S103 is realized especially by the following manner：Each motor is according to respective reception in multiple motors The configured information arrived, performs following steps, with the adjustment for the size for realizing self-corresponding ventilation windowing each to each FRU：

A motor in multiple motors turns according to the configured information received, driving and the rotating shaft of a motor connection It is dynamic.The rotating shaft drives the deep bead rotation being connected with rotating shaft under the driving of a motor, with adjust deep bead and backboard it Between angle, with adjust ventilation windowing size.

Optionally, the first control signal includes at least one in the first configured information and the second configured information, step S102 can specifically be accomplished by the following way：

S1021, BMC determine that the power consumption that there is the first FRU in multiple FRU power consumption is more than the first predetermined threshold value, it is determined that First configured information, the first configured information is used for the size for indicating that the first control unit increases the corresponding ventilation windowings of the first FRU, First FRU is more than any one FRU of the first predetermined threshold value for power consumption in the multiple FRU；

S1022, BMC determine that the power consumption that there is the 2nd FRU in the multiple FRU power consumption is less than the second predetermined threshold value, then The second configured information is determined, second configured information is used to indicate that first control unit reduces the 2nd FRU correspondences Ventilation windowing size, the 2nd FRU be the multiple FRU in power consumption be less than the second predetermined threshold value any one FRU.

First control signal also includes the 3rd configured information, and optionally, step S102 is also realized especially by the following manner：

S1023, BMC determine that the power consumption that there is the 3rd FRU in multiple FRU power consumption is more than the second predetermined threshold value and less than the One predetermined threshold value, it is determined that the 3rd configured information, the 3rd configured information is used to indicate FRU pairs of the first control unit holding the first The size for the ventilation windowing answered is constant, and the 3rd FRU is more than the second predetermined threshold value and less than institute for power consumption in the multiple FRU State any one FRU of the first predetermined threshold value.

Optionally, as shown in figure 5, the method that the application is provided also includes：

S104, the temperature for obtaining multiple FRU.

It is understood that the step S104 in the application can be implemented in the following manner：Pass through temperature detection Device (for example, temperature sensor) obtains the temperature of each FRU in multiple FRU.

Specifically, multiple FRU temperature can periodically be obtained according to predetermined period.The embodiment of the present invention is to above-mentioned pre- If the cycle, without limiting, can be configured as needed in real process.

S105, judge each FRU temperature whether be more than preset temperature.

S106, it is determined that in multiple FRU temperature in the presence of at least one FRU temperature be more than preset temperature when, then again Adjust the size of the corresponding windowings of divulging information of each FRU at least one FRU.

Refer to it is understood that readjusting the corresponding sizes for divulging information windowing of each FRU at least one FRU, BMC Again the power consumption of each FRU at least one FRU is detected, and according to the work(of each FRU at least one FRU detected again Consume to corresponding first control units of each FRU and send the first control signal, to adjust leading to for each FRU at least one FRU The size of wind windowing.

Certainly, in real process, the temperature that there is part FRU is less than or equal to preset temperature, then the application is also wrapped Include：

S107, BMC send control signal to the first control unit, and the control signal is used to indicate that the first control unit is kept The size that temperature is less than or equal to the corresponding ventilation windowings of FRU of preset temperature is constant.

Through the above description of the embodiments, it is apparent to those skilled in the art that, for description It is convenient and succinct, can as needed will be upper only with the division progress of above-mentioned each functional module for example, in practical application State function distribution to be completed by different functional modules, i.e., the internal structure of device is divided into different functional modules, to complete All or part of function described above.The specific work process of the system, apparatus, and unit of foregoing description, before may be referred to The corresponding process in embodiment of the method is stated, be will not be repeated here.

In several embodiments provided herein, it should be understood that disclosed system, apparatus and method can be with Realize by another way.For example, device embodiment described above is only schematical, for example, the module or The division of unit, only a kind of division of logic function, can there is other dividing mode when actually realizing, such as multiple units Or component can combine or be desirably integrated into another system, or some features can be ignored, or not perform.It is another, institute Display or the coupling each other discussed or direct-coupling or communication connection can be by some interfaces, device or unit INDIRECT COUPLING or communication connection, can be electrical, machinery or other forms.

The unit illustrated as separating component can be or may not be it is physically separate, it is aobvious as unit The part shown can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple On NE.Some or all of unit therein can be selected to realize the mesh of this embodiment scheme according to the actual needs 's.

In addition, each functional unit in the application each embodiment can be integrated in a processing unit, can also That unit is individually physically present, can also two or more units it is integrated in a unit.Above-mentioned integrated list Member can both be realized in the form of hardware, it would however also be possible to employ the form of SFU software functional unit is realized.

If the integrated unit is realized using in the form of SFU software functional unit and as independent production marketing or used When, it can be stored in a computer read/write memory medium.Understood based on such, the technical scheme of the application is substantially The part contributed in other words to prior art or all or part of the technical scheme can be in the form of software products Embody, the computer software product is stored in a storage medium, including some instructions are to cause a computer Described in equipment (can be personal computer, server, or network equipment etc.) or computing device the application each embodiment The all or part of step of method.And foregoing storage medium includes：It is flash memory, mobile hard disk, read-only storage, random Access memory, magnetic disc or CD etc. are various can be with the medium of store program codes.

It is described above, the only embodiment of the application, but the protection domain of the application is not limited thereto, and it is any Change or replacement in the technical scope that the application is disclosed, should all cover within the protection domain of the application.Therefore, this Shen Protection domain please should be based on the protection scope of the described claims.

Claims (16)

1. a kind of radiator structure of equipment machine frame, it is characterised in that including：Control management unit B MC, is arranged on equipment machine frame wind First control unit of road entrance, the tunnel inlet includes multiple ventilation windowings, is each divulged information in the multiple ventilation windowing Windowing corresponds at least one Field Replaceable Unit FRU；

The control management unit B MC, the power consumption for obtaining multiple FRU, and according to the multiple FRU power consumption to described First control unit exports the first control signal；

First control unit, is connected with the BMC, for receiving first control signal that the BMC is sent, and The size of the corresponding windowings of divulging information of each FRU in the multiple FRU is adjusted according to first control signal, wherein, input is extremely The air force of each FRU is directly proportional to the size of each each self-corresponding ventilation windowings of FRU.

2. radiator structure according to claim 1, it is characterised in that first control unit includes multiple control units What the ventilation that each control unit is arranged in the multiple ventilation windowing in part, the multiple control unit opened a window enters Mouthful, each control unit is used for the size for adjusting each self-corresponding ventilation windowing, and first control signal is included for institute The configured information of multiple control unit configurations is stated, the configured information is used to indicate each control unit in the multiple control unit The size of each self-corresponding ventilation windowing of part adjustment.

3. radiator structure according to claim 2, it is characterised in that the ventilation windowing includes deep bead and backboard, institute Stating control unit includes：Motor and rotating shaft, the rotating shaft are connected with the deep bead, and the motor is used for according to the described first control Signal processed drives the axis of rotation, and the rotating shaft is used to drive the relatively described back of the body of the deep bead under the driving of the motor Plate is rotated, and adjusts the angle between the deep bead and the backboard Z axis, to adjust the size of the ventilation windowing.

4. the radiator structure according to claim any one of 1-3, it is characterised in that the radiator structure also includes：

Second control unit, is connected with the BMC, the temperature for detecting the multiple FRU, and it is determined that the multiple When temperature in FRU in the presence of at least one FRU is more than or equal to preset temperature, the second control signal is sent to the BMC, it is described Second control signal is used to indicate that the BMC readjusts corresponding the big of windowing of divulging information of each FRU at least one described FRU It is small.

5. radiator structure according to claim 4, it is characterised in that second control unit, including：Detection part and Processing component,

The detection part, the temperature for detecting the multiple FRU, and the multiple FRU temperature is sent to described Processing component；

The processing component, the temperature of the multiple FRU for being sent to the detection part performs an analysis, and it is determined that institute When stating the temperature that there is at least one FRU in multiple FRU more than or equal to preset temperature, second control is sent to the BMC Signal processed.

6. the radiator structure according to claim any one of 1-3, it is characterised in that the radiator structure also includes：

Second control unit, is connected with the BMC, the temperature for detecting the multiple FRU, and by the multiple FRU's Temperature is sent to the BMC；

The BMC, is additionally operable to receive the temperature for the multiple FRU that second control unit is sent, and it is determined that multiple When temperature in FRU in the presence of at least one FRU is more than or equal to preset temperature, readjust each at least one described FRU The size of FRU ventilation windowing.

7. the radiator structure according to claim any one of 1-6, it is characterised in that the BMC, described specifically for determining Power consumption in multiple FRU power consumption in the presence of the first FRU is more than the first predetermined threshold value, then is first control unit configuration first Configured information, first configured information is used to indicate that first control unit increases the corresponding ventilations of the first FRU and opened The size of window, the first FRU is more than any one FRU of the first predetermined threshold value for power consumption in the multiple FRU；

The BMC determines that the power consumption that there is the 2nd FRU in the multiple FRU power consumption is less than the second predetermined threshold value, then to be described First control unit configures the second configured information, and second configured information is used to indicate that the first control unit reduction is described The size of the corresponding ventilation windowings of 2nd FRU, the 2nd FRU is less than the second predetermined threshold value for power consumption in the multiple FRU Any one FRU.

8. the radiator structure according to claim any one of 1-7, it is characterised in that first control signal is that pulse is wide Spend modulation (PWM) signal.

9. a kind of heat dissipating method of equipment machine frame, it is characterised in that in the radiator structure applied to equipment machine frame, methods described bag Include：

Detect multiple Field Replaceable Unit FRU power consumption；

According to the multiple FRU power consumption, the first control signal is determined, first control signal is used to indicate that adjustment is described more The size of the corresponding windowings of divulging information of each FRU in individual FRU；

According to first control signal, the size of the corresponding windowings of divulging information of each FRU in the multiple FRU is adjusted, wherein, it is defeated Enter to the air force of each FRU and be directly proportional to the size of each each self-corresponding ventilation windowings of FRU.

10. method according to claim 9, it is characterised in that described according to first control signal, is adjusted described many The size of the corresponding windowings of divulging information of each FRU in individual FRU, including：

Determine first control signal be used for indicate increase the multiple FRU in the size that opens a window of the corresponding ventilations of the first FRU, The current size increase of the corresponding ventilation windowings of the first FRU is then controlled, the first FRU is power consumption in the multiple FRU More than any one FRU of the first predetermined threshold value；

Determine first control signal be used for indicate reduction the multiple FRU in the size that opens a window of the corresponding ventilations of the 2nd FRU, The current size of the corresponding ventilation windowings of the 2nd FRU is then controlled to reduce, the 2nd FRU is power consumption in the multiple FRU Less than any one FRU of the second predetermined threshold value.

11. the method according to claim 9 or 10, it is characterised in that described according to first control signal, adjusts institute The size of the corresponding windowings of divulging information of each FRU in multiple FRU is stated, in addition to：

Determine first control signal be used for indicate keep the size that the corresponding ventilations of the 3rd FRU open a window in the multiple FRU Constant, then the size for controlling the corresponding ventilations of the 3rd FRU to open a window is constant, and the 3rd FRU is power consumption in the multiple FRU Any one FRU between the second predetermined threshold value and the first predetermined threshold value.

12. the method according to claim any one of 9-11, it is characterised in that it is described that first control signal, which includes, The configured information of the corresponding control unit configuration of the respective windowings of divulging information of each FRU, it is described according to first control signal, adjust The size of the corresponding windowings of divulging information of each FRU in whole the multiple FRU, including：

According to the configured information for the corresponding control unit configuration that opened a window for each respective ventilations of FRU, each FRU is adjusted each The size of self-corresponding ventilation windowing.

13. method according to claim 12, it is characterised in that the ventilation windowing includes deep bead and backboard, described Control unit includes motor and the rotating shaft with the motor connection, and the rotating shaft is connected with the deep bead, and the basis is institute The configured information of the corresponding control unit configuration of the respective ventilation windowings of each FRU is stated, each each self-corresponding ventilations of FRU are adjusted The size of windowing, including：

Each motor performs following steps according to the configured information being respectively received in multiple motors, each to each FRU to realize The adjustment of the size of self-corresponding ventilation windowing：

A motor in the multiple motor is according to the configured information received, driving and the rotating shaft of one motor connection Rotate；

The rotating shaft drives the deep bead being connected with the rotating shaft to rotate under the driving of one motor, described to adjust Angle between deep bead and the backboard, to adjust the size of the ventilation windowing.

14. the method according to claim 9-13, it is characterised in that first control signal includes the first configured information With at least one in the second configured information, the power consumption according to the multiple FRU determines the first control signal, including：

Determine that the power consumption in the multiple FRU power consumption in the presence of the first FRU is more than the first predetermined threshold value, it is determined that first indicates letter Breath, first configured information is used to indicate that first control unit increases the big of the corresponding ventilation windowings of the first FRU It is small；

Determine that the power consumption in the multiple FRU power consumption in the presence of the 2nd FRU is less than the second predetermined threshold value, it is determined that second indicates letter Breath, second configured information is used to indicate that first control unit reduces the big of the corresponding ventilation windowings of the 2nd FRU It is small；

First configured information and/or second configured information are defined as first control signal.

15. method according to claim 14, it is characterised in that first control signal also includes the 3rd and indicates letter Breath, the power consumption according to the multiple FRU determines the first control signal, including：

Determine that the power consumption in the multiple FRU power consumption in the presence of the 3rd FRU is more than the second predetermined threshold value and pre- less than described first If threshold value, it is determined that the 3rd configured information, the 3rd configured information is used to indicating that first control unit to keep described the The size of the corresponding ventilation windowings of one FRU is constant.

16. the method according to claim any one of 9-15, it is characterised in that methods described also includes：

Obtain the multiple FRU temperature；

When it is determined that the temperature that there is at least one FRU in the multiple FRU temperature is more than preset temperature, then institute is readjusted State the size of the corresponding windowings of divulging information of each FRU at least one FRU.