CN110159418A - Turbocharging method, pressurization control equipment, storage medium and device - Google Patents

Abstract

The present invention relates to turbocharging technology field, a kind of turbocharging method, pressurization control equipment, storage medium and device are disclosed.The current pressure and Current Temperatures of default inlet manifold are acquired in the present invention；Current air inflow is determined according to current pressure and Current Temperatures；Current air inflow is compared with default Surging flow；When current air inflow is greater than default Surging flow, aperture regulation instruction is generated, and instruct the current aperture for adjusting default exhaust gas by-pass valve to the first default aperture according to aperture regulation, to carry out turbo charged Regulation against surge.Significantly; the use for supercharging pressure control valve is eliminated in the present invention; the aperture of default exhaust gas by-pass valve will be controlled by comparing the comparison result of current air inflow and default Surging flow; to be protected to turbocharger; it fails after can preventing turbocharger from violent surge occurs, to solve the technical issues of Anti-surge Control that cannot efficiently carry out turbocharger.

Description

Turbocharging method, pressurization control equipment, storage medium and device

Technical field

The present invention relates to turbocharging technology field more particularly to turbocharging methods, pressurization control equipment, storage medium And device.

Background technique

For turbocharger as a kind of high speed rotation components, impeller maximum speed can reach 250,000 turns, meanwhile, spiral case It would operate in the environment of high temperature and pressure, this brings the risk of surge and hypervelocity to turbocharger, to easily cause turbine Booster failure.

So relevant components can generally be arranged in turbocharger or in air inlet pipeline, and certain phase of arranging in pairs or groups It answers control strategy to protect turbocharger, causes turbocharger fails to avoid due to surge and hypervelocity.

Currently, most of turbocharger can be turbo charged to prevent by additionally integrating a supercharging pressure control valve Surge and hypervelocity, and the supercharging pressure control valve is a pressurization recycle valve actually.

But there are many defects for supercharging pressure control valve, for example, additionally installation supercharging pressure control valve cost compared with Height, moreover, installation supercharging pressure control valve can make the arrangement of installation site complex；Meanwhile supercharging pressure control valve exists The pressure difference of two sides is larger when work will cause the discouraged noise of biggish air-flow, moreover, compatible with supercharging pressure control valve Control strategy can vehicle open by mistake under the driving cycles of part to open, vehicle performance is made to be deteriorated.

As it can be seen that there is no the Anti-surge Control that a preferable mode carries out turbocharger., it can be said that there is not The technical issues of Anti-surge Control of turbocharger can efficiently be carried out.

Above content is only used to facilitate the understanding of the technical scheme, and is not represented and is recognized that above content is existing skill Art.

Summary of the invention

The main purpose of the present invention is to provide turbocharging method, pressurization control equipment, storage medium and devices, it is intended to Solution must not efficiently carry out the technical issues of Anti-surge Control of turbocharger.

To achieve the above object, the present invention provides a kind of turbocharging method, and the turbocharging method includes following step It is rapid:

Acquire the current pressure and Current Temperatures of default inlet manifold；

The current air inflow of the default inlet manifold is determined according to the current pressure and the Current Temperatures；

The current air inflow is compared with default Surging flow；

When the current air inflow is greater than the default Surging flow, aperture regulation instruction is generated, and open according to described Regulating command is spent by the current aperture regulation of default exhaust gas by-pass valve to the first default aperture, to realize turbo charged anti-surge It adjusts.

Preferably, after the current pressure and Current Temperatures for acquiring default inlet manifold, the turbocharging method Further include:

The current pressure is compared with preset pressure；

In the current pressure and the preset pressure difference, execute described according to the current pressure and described current Temperature determines the step of current air inflow of the default inlet manifold.

Preferably, it is described the current pressure is compared with preset pressure after, the turbocharging method is also wrapped It includes:

When the current pressure is identical as the preset pressure, generates aperture and maintain instruction, and tieed up according to the aperture Hold the current aperture that instruction keeps the default exhaust gas by-pass valve.

Preferably, described when the current air inflow is greater than the default Surging flow, aperture regulation instruction is generated, and According to aperture regulation instruction by the current aperture regulation of default exhaust gas by-pass valve to the first default aperture, to realize that turbine increases The Regulation against surge of pressure, specifically includes:

When the current air inflow is greater than the default Surging flow, aperture regulation instruction is generated；

According to the aperture regulation instruction by the current aperture regulation of default exhaust gas by-pass valve to the preset pressure pair The current pressure is adjusted to the preset pressure to realize by the target aperture answered.

Preferably, it is described according to the aperture regulation instruction by the current aperture regulation of default exhaust gas by-pass valve to it is described The current pressure is adjusted to the preset pressure to realize, specifically included by the corresponding target aperture of preset pressure:

The current aperture of default exhaust gas by-pass valve is adjusted according to aperture regulation instruction, and it is pre- to return to the execution acquisition If the step of current pressure and Current Temperatures of inlet manifold, until when the current pressure is identical as the preset pressure, Stop the adjusting for the default exhaust gas by-pass valve to operate, the current aperture regulation is extremely corresponding with the preset pressure Target aperture and the current pressure be adjusted to the preset pressure.

Preferably, it is described the current air inflow is compared with default Surging flow after, the turbocharging side Method further include:

When the current air inflow is less than or equal to the default Surging flow, surge decision instruction is generated, according to institute It states surge decision instruction and adjusts the current aperture of the default exhaust gas by-pass valve to the second default aperture, to enter standby mode.

Preferably, it is described the current air inflow is compared with default Surging flow before, the turbocharging side Method further include:

Obtain current pressure ratio；

Corresponding default Surging flow, the default asthma are inquired in default surge mapping relations according to the current pressure ratio It include the corresponding relationship between pressure ratio and Surging flow in mapping relations of shaking.

In addition, to achieve the above object, the present invention also proposes that a kind of pressurization control equipment, the pressurization control equipment include Memory, processor and it is stored in the turbocharging program that can be run on the memory and on the processor, the whirlpool The step of wheel pressurization program is arranged for carrying out turbocharging method as described above.

In addition, to achieve the above object, the present invention also proposes a kind of storage medium, turbine is stored on the storage medium The step of pressurization program, the turbocharging program realizes turbocharging method as described above when being executed by processor.

In addition, to achieve the above object, the present invention also proposes a kind of turbo charging installation, the turbo charging installation packet It includes:

Information acquisition module, for acquiring the current pressure and Current Temperatures of default inlet manifold；

Air inflow determining module, for determining the default inlet manifold according to the current pressure and the Current Temperatures Current air inflow；

Flow comparison module, for the current air inflow to be compared with default Surging flow；

Regulation against surge module, for generating aperture tune when the current air inflow is greater than the default Surging flow Section instruction, and according to aperture regulation instruction by the current aperture regulation of default exhaust gas by-pass valve to the first default aperture, with Realize turbo charged Regulation against surge.

The current pressure and Current Temperatures of default inlet manifold are acquired in the present invention；It is true with Current Temperatures according to current pressure Surely the current air inflow of default inlet manifold；Current air inflow is compared with default Surging flow；It is big in current air inflow When default Surging flow, aperture regulation instruction is generated, and the current of default exhaust gas by-pass valve is adjusted according to aperture regulation instruction Aperture is to the first default aperture, to carry out turbo charged Regulation against surge.Pressurization is pressed it is apparent that being eliminated in the present invention The use of force control valve, has reset a kind of Anti-surge Control strategy of turbocharger, specifically, will work as by comparing The comparison result of preceding air inflow and default Surging flow controls the aperture of default exhaust gas by-pass valve, to carry out to turbocharger Protection fails after can preventing turbocharger from violent surge occurs, has efficiently evaded surge phenomenon, to solve not The technical issues of Anti-surge Control of turbocharger can efficiently be carried out.

Detailed description of the invention

Fig. 1 is the pressurization control device structure schematic diagram for the hardware running environment that the embodiment of the present invention is related to；

Fig. 2 is the flow diagram of turbocharging method first embodiment of the present invention；

Fig. 3 is the ECU connection relationship diagram of turbocharging method first embodiment of the present invention；

Fig. 4 is the flow diagram of turbocharging method second embodiment of the present invention；

Fig. 5 is the flow diagram of turbocharging method 3rd embodiment of the present invention；

Fig. 6 is the structural block diagram of turbo charging installation first embodiment of the present invention.

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.

Referring to Fig.1, Fig. 1 is the pressurization control device structure signal for the hardware running environment that the embodiment of the present invention is related to Figure.

As shown in Figure 1, the pressurization control equipment may include: processor 1001, such as central processing unit (Central Processing Unit, CPU), communication bus 1002, user interface 1003, network interface 1004, memory 1005.Wherein, Communication bus 1002 is for realizing the connection communication between these components.User interface 1003 may include display screen (Display), optional user interface 1003 can also include the wireline interface and wireless interface of standard, and user interface 1003 Wireline interface in the present invention can be universal serial bus (Universal Serial Bus, USB) interface.Network interface 1004 optionally may include the wireline interface and wireless interface (such as WI-FI interface) of standard.Memory 1005 can be height Fast random access memory (Random Access Memory, RAM)；It is also possible to stable memory, for example, non-volatile deposit Reservoir (Non-volatile Memory), concretely, magnetic disk storage.Memory 1005 optionally can also be independently of The storage device of aforementioned processor 1001.

It will be understood by those skilled in the art that structure shown in Fig. 1 does not constitute the restriction to pressurization control equipment, it can To include perhaps combining certain components or different component layouts than illustrating more or fewer components.

As shown in Figure 1, as may include that operating system, network are logical in a kind of memory 1005 of computer storage medium Believe module, Subscriber Interface Module SIM and turbocharging program.

In pressurization control equipment shown in Fig. 1, network interface 1004 is mainly used for connecting background server, after described Platform server carries out data communication；User interface 1003 is mainly used for connecting peripheral hardware；The pressurization control equipment passes through processor The turbocharging program stored in 1001 calling memories 1005, and execute following operation:

Acquire the current pressure and Current Temperatures of default inlet manifold；

The current air inflow of the default inlet manifold is determined according to the current pressure and the Current Temperatures；

The current air inflow is compared with default Surging flow；

When the current air inflow is greater than the default Surging flow, aperture regulation instruction is generated, and open according to described Regulating command is spent by the current aperture regulation of default exhaust gas by-pass valve to the first default aperture, to realize turbo charged anti-surge It adjusts.

Further, processor 1001 can call the turbocharging program stored in memory 1005, also execute following Operation:

The current pressure is compared with preset pressure；

In the current pressure and the preset pressure difference, execute described according to the current pressure and described current Temperature determines the step of current air inflow of the default inlet manifold.

Further, processor 1001 can call the turbocharging program stored in memory 1005, also execute following Operation:

When the current pressure is identical as the preset pressure, generates aperture and maintain instruction, and tieed up according to the aperture Hold the current aperture that instruction keeps the default exhaust gas by-pass valve.

Further, processor 1001 can call the turbocharging program stored in memory 1005, also execute following Operation:

When the current air inflow is greater than the default Surging flow, aperture regulation instruction is generated；

According to the aperture regulation instruction by the current aperture regulation of default exhaust gas by-pass valve to the preset pressure pair The current pressure is adjusted to the preset pressure to realize by the target aperture answered.

Further, processor 1001 can call the turbocharging program stored in memory 1005, also execute following Operation:

The current aperture of default exhaust gas by-pass valve is adjusted according to aperture regulation instruction, and it is pre- to return to the execution acquisition If the step of current pressure and Current Temperatures of inlet manifold, until when the current pressure is identical as the preset pressure, Stop the adjusting for the default exhaust gas by-pass valve to operate, the current aperture regulation is extremely corresponding with the preset pressure Target aperture and the current pressure be adjusted to the preset pressure.

Further, processor 1001 can call the turbocharging program stored in memory 1005, also execute following Operation:

When the current air inflow is less than or equal to the default Surging flow, surge decision instruction is generated, according to institute It states surge decision instruction and adjusts the current aperture of the default exhaust gas by-pass valve to the second default aperture, to enter standby mode.

Further, processor 1001 can call the turbocharging program stored in memory 1005, also execute following Operation:

Obtain current pressure ratio；

Corresponding default Surging flow, the default asthma are inquired in default surge mapping relations according to the current pressure ratio It include the corresponding relationship between pressure ratio and Surging flow in mapping relations of shaking.

The current pressure and Current Temperatures of default inlet manifold are acquired in the present embodiment；According to current pressure and Current Temperatures Determine the current air inflow of default inlet manifold；Current air inflow is compared with default Surging flow；In current air inflow When greater than default Surging flow, aperture regulation instruction is generated, and working as default exhaust gas by-pass valve is adjusted according to aperture regulation instruction Preceding aperture is to the first default aperture, to carry out turbo charged Regulation against surge.It is apparent that being eliminated in the present embodiment for increasing The use of pressure pressure control valve, has reset a kind of Anti-surge Control strategy of turbocharger, specifically, will pass through ratio The comparison result of more current air inflow and default Surging flow controls the aperture of default exhaust gas by-pass valve, to turbocharger It is protected, fails after can preventing turbocharger from violent surge occurs, efficiently evaded surge phenomenon, to solve The technical issues of cannot efficiently carrying out the Anti-surge Control of turbocharger.

Based on above-mentioned hardware configuration, the embodiment of turbocharging method of the present invention is proposed.

It is the flow diagram of turbocharging method first embodiment of the present invention referring to Fig. 2, Fig. 2.

In the first embodiment, the turbocharging method the following steps are included:

Step S10: the current pressure and Current Temperatures of default inlet manifold are acquired.

It is understood that the executing subject of the present embodiment is pressurization control equipment, which can be presented as Vehicle-mounted computer on automobile；Vehicle-mounted computer can be denoted as electronic control unit (Electronic Control Unit, ECU) again, be Automobile specified microcomputerized controller.Wherein, ECU respectively in automobile turbocharger, default exhaust gas by-pass valve, engine and The connection of the components such as sensor carries out Anti-surge Control by ECU, reference can be made to Fig. 3.

It should be understood that engine includes default inlet manifold, the current pressure of default inlet manifold can be denoted as The Current Temperatures of default inlet manifold can be denoted as T0 by P0.

Step S20: the current air inlet of the default inlet manifold is determined according to the current pressure and the Current Temperatures Amount.

It should be understood that can determine the current air inflow of the default inlet manifold by P0 and T0, current air inflow can It is denoted as M0.

Step S30: the current air inflow is compared with default Surging flow.

It should be noted that default Surging flow can be the minimum surge flow under current pressure ratio environment, Mc can be denoted as.If M0≤Mc then shows turbocharger surge risk with higher this moment, will take emergency operation immediately, for example, stopping The operation etc. of turbocharger；If M0 > Mc, aperture regulation instruction will be generated, will be adjusted by default exhaust gas by-pass valve, To prevent that surge occurs in operational process.

Step S40: when the current air inflow is greater than the default Surging flow, aperture regulation instruction, and root are generated It instructs the current aperture regulation of default exhaust gas by-pass valve according to the aperture regulation to the first default aperture, to realize turbocharging Regulation against surge.

It is understood that the effect of default exhaust gas by-pass valve is the air inlet pressure in the default inlet manifold for adjust engine Power, also, control turbocharger and do not exceed the speed limit.With the revolving speed of engine and being gradually increased for load, exhaust gas by-pass valve is preset Aperture be also gradually increased so that can be by-pass out by default exhaust gas by-pass valve in exhausting waste gas, weaken exhaust gas and push whirlpool Wheel acting, so that turbocharger be avoided to exceed the speed limit.

In the concrete realization, after obtaining aperture regulation instruction, exhaust gas can be preset based on aperture regulation instruction de-regulation The aperture of by-passing valve can influence the admission pressure at default inlet manifold by changing its aperture indirectly.By changing air inlet Pressure in pipeline, protects turbocharger, fails after can preventing turbocharger from violent surge occurs.

It should be understood that this implementation will not install and without using supercharging pressure control valve, boost pressure control also can avoid Valve processed can many defects of bring.For example, using supercharging pressure control valve by cancelling, cost is saved, air inlet pipe is conducive to Road arrangement has evaded the pneumatic noise problem generated since supercharging pressure control valve is opened, has also avoided Pressure control The supercharging pressure control valve that the compatible control strategy of valve easily causes, which opens by mistake, to be opened.

The current pressure and Current Temperatures of default inlet manifold are acquired in the present embodiment；According to current pressure and Current Temperatures Determine the current air inflow of default inlet manifold；Current air inflow is compared with default Surging flow；In current air inflow When greater than default Surging flow, aperture regulation instruction is generated, and working as default exhaust gas by-pass valve is adjusted according to aperture regulation instruction Preceding aperture is to the first default aperture, to carry out turbo charged Regulation against surge.It is apparent that being eliminated in the present embodiment for increasing The use of pressure pressure control valve, has reset a kind of Anti-surge Control strategy of turbocharger, specifically, will pass through ratio The comparison result of more current air inflow and default Surging flow controls the aperture of default exhaust gas by-pass valve, to turbocharger It is protected, fails after can preventing turbocharger from violent surge occurs, efficiently evaded surge phenomenon, to solve The technical issues of cannot efficiently carrying out the Anti-surge Control of turbocharger.

It is the flow diagram of turbocharging method second embodiment of the present invention referring to Fig. 4, Fig. 4, based on shown in above-mentioned Fig. 2 First embodiment, propose the second embodiment of turbocharging method of the present invention.

In second embodiment, after having redesigned the control strategy of turbocharger, although eliminating boost pressure control Valve processed and corresponding connecting line, the components arrangement and sensor cloth used when can still continue to use using supercharging pressure control valve Set mode.It include under different gearbox-gears and throttle opening to engine moreover, can also continue to use vehicle nominal data Torque demand parameter list etc., can by this storage into ECU；Engine calibration data can be also continued to use, for example, can be by different hairs The preset pressure parameter table of corresponding default inlet manifold is stored into ECU under motivation torque.

Further, after the step S10, the turbocharging method further include:

Step S101: the current pressure is compared with preset pressure.

In the current pressure and the preset pressure difference, step S20 is executed.

It is understood that the current pressure that can add default inlet manifold operates compared between preset pressure, when Preceding pressure can also be denoted as current admission pressure, and preset pressure can also be denoted as default admission pressure.When real-time admission pressure is that this is pre- If when admission pressure, it is believed that turbocharger at this time does not have the risk of surge.

It should be understood that subsequent anti-surge control will be executed if admission pressure is not the default admission pressure in real time System strategy.

Further, it is described the current pressure is compared with preset pressure after, the turbocharging method is also Include:

When the current pressure is identical as the preset pressure, generates aperture and maintain instruction, and tieed up according to the aperture Hold the current aperture that instruction keeps the default exhaust gas by-pass valve.

It is understood that when real-time admission pressure is the default admission pressure, Given this when turbocharger do not have There is the risk of surge, the aperture of default exhaust gas by-pass valve can not be changed.

The comparison operation for admission pressure is introduced in the present embodiment, to improve the control efficiency of anti-surge.Do not having When the risk of surge, the aperture of default exhaust gas by-pass valve is not changed.

It is the flow diagram of turbocharging method 3rd embodiment of the present invention referring to Fig. 5, Fig. 5, based on shown in above-mentioned Fig. 4 Second embodiment, propose the 3rd embodiment of turbocharging method of the present invention.

In 3rd embodiment, the step S40 is specifically included:

Step S401: when the current air inflow is greater than the default Surging flow, aperture regulation instruction is generated.

It should be understood that the air inlet at default inlet manifold can be influenced in view of the aperture for changing default exhaust gas by-pass valve Pressure, admission pressure can promote the generation of surge phenomenon, and by the aperture by adjusting default exhaust gas by-pass valve in the present embodiment To evade surge phenomenon.

Step S402: according to the aperture regulation instruction by the current aperture regulation of default exhaust gas by-pass valve to it is described pre- If the corresponding target aperture of pressure, the current pressure is adjusted to the preset pressure to realize.

It is understood that as the adjusting behavior of anti-surge, it can be specifically, for example, presetting the reality in inlet manifold When border air inflow is greater than the minimum surge flow under current pressure ratio environment, i.e. M0 > Mc can carry out the adjusting of anti-surge, and consider To default exhaust gas by-pass valve aperture and default inlet manifold admission pressure between there is relevances, it is believed that a certain number The admission pressure of value will correspond to an opening value.

It should be understood that preset pressure herein will correspond to target aperture, in other words, when default exhaust gas by-pass valve When aperture is adjusted to the numerical value of target aperture, the admission pressure of default inlet manifold will be affected as the preset pressure.And work as When current pressure is adjusted to preset pressure, it is believed that turbocharger at this time does not have the risk of surge.

Further, it is described according to the aperture regulation instruction by the current aperture regulation of default exhaust gas by-pass valve to institute The corresponding target aperture of preset pressure is stated, the current pressure is adjusted to the preset pressure to realize, is specifically included:

The current aperture of default exhaust gas by-pass valve is adjusted according to aperture regulation instruction, and it is pre- to return to the execution acquisition If the step of current pressure and Current Temperatures of inlet manifold, until when the current pressure is identical as the preset pressure, Stop the adjusting for the default exhaust gas by-pass valve to operate, the current aperture regulation is extremely corresponding with the preset pressure Target aperture and the current pressure be adjusted to the preset pressure.

It is understood that the adjusting behavior as the anti-surge is in detail, can constantly be adjusted by circulatory monitoring operation The current aperture of default exhaust gas by-pass valve is saved, so that the current pressure of default inlet manifold constantly approaches the numerical value of preset pressure, Until it is equal with preset pressure, it can stop adjusting operation at this time.

In the concrete realization, the current pressure for presetting inlet manifold can be denoted as P0, and preset pressure can be denoted as P, and P0 is not equal to P.After having adjusted the current aperture of default exhaust gas by-pass valve, the default current pressure of inlet manifold this moment of monitoring, P0 can return to Numerical value changed.If P0 is still not equal to P at this time, it can continue to adjust default exhaust gas by-pass valve, again return to monitoring The current pressure of default inlet manifold this moment.If the P0 after second of adjusting has been equal to P, the operation that circulation is adjusted can be stopped, Keep the aperture of default exhaust gas by-pass valve constant, and current aperture this moment is also adjusted to target corresponding with preset pressure P Aperture.

Further, after the step S30, the turbocharging method further include:

When the current air inflow is less than or equal to the default Surging flow, surge decision instruction is generated, according to institute It states surge decision instruction and adjusts the current aperture of the default exhaust gas by-pass valve to the second default aperture, to enter standby mode.

In the concrete realization, when current air inflow is less than or equal to default Surging flow, i.e. M0≤Mc, at this time it is believed that Turbocharger has surge risk, and ECU is by generating the controllable current aperture for presetting exhaust gas by-pass valve of surge decision instruction Variation is maximum opening, that is, controls default exhaust gas by-pass valve moment holding standard-sized sheet, meanwhile, turbocharger will enter standby mode It stops working.

Further, before the step S30, the turbocharging method further include:

Obtain current pressure ratio；

Corresponding default Surging flow, the default asthma are inquired in default surge mapping relations according to the current pressure ratio It include the corresponding relationship between pressure ratio and Surging flow in mapping relations of shaking.

In the concrete realization, it can also be previously stored with default surge mapping relations in ECU, remember in default surge mapping relations Record has the corresponding relationship between pressure ratio and Surging flow, and turbocharging can be used as the form of expression of default surge mapping relations Device surge line.

It is understood that the current pressure ratio environment by determining turbocharger, can constantly change corresponding default asthma Shake flow, to determine minimum surge flow this moment.

The adjusting behavior of anti-surge has been refined in the present embodiment, and default exhaust gas can be constantly regulate by circulatory monitoring operation The current aperture of by-passing valve, so that the current pressure of default inlet manifold constantly approaches the numerical value of preset pressure, until with default Pressure is equal, can stop adjusting operation at this time.In addition, the present embodiment is less than or equal to default Surging flow in current air inflow When, control is also set into exhaust gas by-pass valve moment holding standard-sized sheet, turbocharger is closed, to prevent surge phenomenon.

In addition, the embodiment of the present invention also proposes a kind of storage medium, turbocharging program is stored on the storage medium, Following operation is realized when the turbocharging program is executed by processor:

Acquire the current pressure and Current Temperatures of default inlet manifold；

The current air inflow of the default inlet manifold is determined according to the current pressure and the Current Temperatures；

The current air inflow is compared with default Surging flow；

When the current air inflow is greater than the default Surging flow, aperture regulation instruction is generated, and open according to described Regulating command is spent by the current aperture regulation of default exhaust gas by-pass valve to the first default aperture, to realize turbo charged anti-surge It adjusts.

Further, following operation is also realized when the turbocharging program is executed by processor:

The current pressure is compared with preset pressure；

In the current pressure and the preset pressure difference, execute described according to the current pressure and described current Temperature determines the step of current air inflow of the default inlet manifold.

Further, following operation is also realized when the turbocharging program is executed by processor:

When the current pressure is identical as the preset pressure, generates aperture and maintain instruction, and tieed up according to the aperture Hold the current aperture that instruction keeps the default exhaust gas by-pass valve.

Further, following operation is also realized when the turbocharging program is executed by processor:

When the current air inflow is greater than the default Surging flow, aperture regulation instruction is generated；

According to the aperture regulation instruction by the current aperture regulation of default exhaust gas by-pass valve to the preset pressure pair The current pressure is adjusted to the preset pressure to realize by the target aperture answered.

Further, following operation is also realized when the turbocharging program is executed by processor:

The current aperture of default exhaust gas by-pass valve is adjusted according to aperture regulation instruction, and it is pre- to return to the execution acquisition If the step of current pressure and Current Temperatures of inlet manifold, until when the current pressure is identical as the preset pressure, Stop the adjusting for the default exhaust gas by-pass valve to operate, the current aperture regulation is extremely corresponding with the preset pressure Target aperture and the current pressure be adjusted to the preset pressure.

Further, following operation is also realized when the turbocharging program is executed by processor:

When the current air inflow is less than or equal to the default Surging flow, surge decision instruction is generated, according to institute It states surge decision instruction and adjusts the current aperture of the default exhaust gas by-pass valve to the second default aperture, to enter standby mode.

Further, following operation is also realized when the turbocharging program is executed by processor:

Obtain current pressure ratio；

Corresponding default Surging flow, the default asthma are inquired in default surge mapping relations according to the current pressure ratio It include the corresponding relationship between pressure ratio and Surging flow in mapping relations of shaking.

The current pressure and Current Temperatures of default inlet manifold are acquired in the present embodiment；According to current pressure and Current Temperatures Determine the current air inflow of default inlet manifold；Current air inflow is compared with default Surging flow；In current air inflow When greater than default Surging flow, aperture regulation instruction is generated, and working as default exhaust gas by-pass valve is adjusted according to aperture regulation instruction Preceding aperture is to the first default aperture, to carry out turbo charged Regulation against surge.It is apparent that being eliminated in the present embodiment for increasing The use of pressure pressure control valve, has reset a kind of Anti-surge Control strategy of turbocharger, specifically, will pass through ratio The comparison result of more current air inflow and default Surging flow controls the aperture of default exhaust gas by-pass valve, to turbocharger It is protected, fails after can preventing turbocharger from violent surge occurs, efficiently evaded surge phenomenon, to solve The technical issues of cannot efficiently carrying out the Anti-surge Control of turbocharger.

In addition, the embodiment of the present invention also proposes that a kind of turbo charging installation, the turbo charging installation include: referring to Fig. 6

Information acquisition module 10, for acquiring the current pressure and Current Temperatures of default inlet manifold.

It is understood that turbo charging installation be actually electronic control unit (Electronic Control Unit, It ECU), is automobile specified microcomputerized controller.Wherein, ECU respectively with the turbocharger in automobile, exhaust gas by-pass valve, engine And the connection of the components such as sensor, Anti-surge Control is carried out by ECU.

It should be understood that engine includes default inlet manifold, the current pressure of default inlet manifold can be denoted as The Current Temperatures of default inlet manifold can be denoted as T0 by P0.

Air inflow determining module 20, for determining the default air inlet discrimination according to the current pressure and the Current Temperatures The current air inflow of pipe.

It should be understood that can determine the current air inflow of the default inlet manifold by P0 and T0, current air inflow can It is denoted as M0.

Flow comparison module 30, for the current air inflow to be compared with default Surging flow.

It should be noted that default Surging flow can be the minimum surge flow under current pressure ratio environment, Mc can be denoted as.If M0≤Mc then shows turbocharger surge risk with higher this moment, will take emergency operation immediately, for example, stopping The operation etc. of turbocharger；If M0 > Mc, aperture regulation instruction will be generated, will be adjusted by default exhaust gas by-pass valve, To prevent that surge occurs in operational process.

Regulation against surge module 40, for generating aperture when the current air inflow is greater than the default Surging flow Regulating command, and instructed according to the aperture regulation by the current aperture regulation of default exhaust gas by-pass valve to the first default aperture, To realize turbo charged Regulation against surge.

It is understood that the effect of default exhaust gas by-pass valve is the air inlet pressure in the default inlet manifold for adjust engine Power, also, control turbocharger and do not exceed the speed limit.With the revolving speed of engine and being gradually increased for load, exhaust gas by-pass valve is preset Aperture be also gradually increased so that can be by-pass out by default exhaust gas by-pass valve in exhausting waste gas, weaken exhaust gas and push whirlpool Wheel acting, so that turbocharger be avoided to exceed the speed limit.

In the concrete realization, after obtaining aperture regulation instruction, exhaust gas can be preset based on aperture regulation instruction de-regulation The aperture of by-passing valve can influence the admission pressure at default inlet manifold by changing its aperture indirectly.By changing air inlet Pressure in pipeline, protects turbocharger, fails after can preventing turbocharger from violent surge occurs.

It should be understood that this implementation will not install and without using supercharging pressure control valve, boost pressure control also can avoid Valve processed can many defects of bring.For example, using supercharging pressure control valve by cancelling, cost is saved, air inlet pipe is conducive to Road arrangement has evaded the pneumatic noise problem generated since supercharging pressure control valve is opened, has also avoided Pressure control The supercharging pressure control valve that the compatible control strategy of valve easily causes, which opens by mistake, to be opened.

The current pressure and Current Temperatures of default inlet manifold are acquired in the present embodiment；According to current pressure and Current Temperatures Determine the current air inflow of default inlet manifold；Current air inflow is compared with default Surging flow；In current air inflow When greater than default Surging flow, aperture regulation instruction is generated, and working as default exhaust gas by-pass valve is adjusted according to aperture regulation instruction Preceding aperture is to the first default aperture, to carry out turbo charged Regulation against surge.It is apparent that being eliminated in the present embodiment for increasing The use of pressure pressure control valve, has reset a kind of Anti-surge Control strategy of turbocharger, specifically, will pass through ratio The comparison result of more current air inflow and default Surging flow controls the aperture of default exhaust gas by-pass valve, to turbocharger It is protected, fails after can preventing turbocharger from violent surge occurs, efficiently evaded surge phenomenon, to solve The technical issues of cannot efficiently carrying out the Anti-surge Control of turbocharger.

In one embodiment, the turbo charging installation further include:

Pressure comparison module, for the current pressure to be compared with preset pressure；In the current pressure and institute When stating preset pressure difference, execution is described to determine the default inlet manifold according to the current pressure and the Current Temperatures The step of current air inflow.

In one embodiment, the turbo charging installation further include:

Aperture maintenance module maintains instruction for when the current pressure is identical as the preset pressure, generating aperture, And the current aperture of the instruction holding default exhaust gas by-pass valve is maintained according to the aperture.

In one embodiment, the Regulation against surge module 40 is also used to be greater than in the current air inflow described default When Surging flow, aperture regulation instruction is generated；It is instructed according to the aperture regulation by the current aperture tune of default exhaust gas by-pass valve The current pressure is adjusted to the preset pressure to realize to target aperture corresponding with the preset pressure by section.

In one embodiment, the Regulation against surge module 40 is also used to instruct to adjust according to the aperture regulation to preset The current aperture of exhaust gas by-pass valve, and return to the step for executing the current pressure for acquiring default inlet manifold and Current Temperatures Suddenly, until when the current pressure is identical as the preset pressure, stops the adjusting for the default exhaust gas by-pass valve and grasp Make, the current aperture regulation extremely target aperture corresponding with the preset pressure and the current pressure is adjusted to described Preset pressure.

In one embodiment, the turbo charging installation further include:

Aperture standard-sized sheet module, for generating asthma when the current air inflow is less than or equal to the default Surging flow Vibration decision instruction is preset to second according to the current aperture that the surge decision instruction adjusts the default exhaust gas by-pass valve and is opened Degree, to enter standby mode.

In one embodiment, the turbo charging installation further include:

Surging flow enquiry module, for obtaining current pressure ratio；According to the current pressure ratio in default surge mapping relations It is middle to inquire corresponding default Surging flow, it include the corresponding pass between pressure ratio and Surging flow in the default surge mapping relations System.

The other embodiments or specific implementation of turbo charging installation of the present invention can refer to above-mentioned each method and implement Example, details are not described herein again.

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that the process, method, article or the system that include a series of elements not only include those elements, and And further include other elements that are not explicitly listed, or further include for this process, method, article or system institute it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do There is also other identical elements in the process, method of element, article or system.

The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.If listing equipment for drying Unit claim in, several in these devices, which can be, to be embodied by the same item of hardware.Word first, Second and the use of third etc. do not indicate any sequence, can be title by these word explanations.

Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side Method can be realized by means of software and necessary general hardware platform, naturally it is also possible to by hardware, but in many cases The former is more preferably embodiment.Based on this understanding, technical solution of the present invention substantially in other words does the prior art The part contributed out can be embodied in the form of software products, which is stored in a storage medium In (such as read-only memory, RAM, magnetic disk, CD), including some instructions are used so that a terminal device (can be mobile phone, count Calculation machine, server, air conditioner or network equipment etc.) execute method described in each embodiment of the present invention.

The above is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills Art field, is included within the scope of the present invention.

Claims (10)

1. a kind of turbocharging method, which is characterized in that the turbocharging method the following steps are included:

Acquire the current pressure and Current Temperatures of default inlet manifold；

The current air inflow of the default inlet manifold is determined according to the current pressure and the Current Temperatures；

The current air inflow is compared with default Surging flow；

When the current air inflow is greater than the default Surging flow, aperture regulation instruction is generated, and according to the aperture tune Section instruction is by the current aperture regulation of default exhaust gas by-pass valve to the first default aperture, to realize turbo charged anti-surge tune Section.

2. turbocharging method as described in claim 1, which is characterized in that the current pressure for acquiring default inlet manifold After Current Temperatures, the turbocharging method further include:

The current pressure is compared with preset pressure；

In the current pressure and the preset pressure difference, execute described according to the current pressure and the Current Temperatures The step of determining the current air inflow of the default inlet manifold.

3. turbocharging method as claimed in claim 2, which is characterized in that it is described by the current pressure and preset pressure into After row compares, the turbocharging method further include:

When the current pressure is identical as the preset pressure, generates aperture and maintain instruction, and referred to according to aperture maintenance Enable the current aperture for keeping the default exhaust gas by-pass valve.

4. turbocharging method as claimed in claim 2, which is characterized in that it is described the current air inflow be greater than it is described pre- If when Surging flow, generating aperture regulation instruction, and currently the opening default exhaust gas by-pass valve according to aperture regulation instruction Degree is adjusted to the first default aperture, to realize turbo charged Regulation against surge, specifically includes:

When the current air inflow is greater than the default Surging flow, aperture regulation instruction is generated；

It is according to aperture regulation instruction that the current aperture regulation of default exhaust gas by-pass valve is extremely corresponding with the preset pressure The current pressure is adjusted to the preset pressure to realize by target aperture.

5. turbocharging method as claimed in claim 4, which is characterized in that described to be preset according to aperture regulation instruction The current aperture regulation of exhaust gas by-pass valve is to target aperture corresponding with the preset pressure, to realize the current pressure tune Section is the preset pressure, is specifically included:

Adjust the current aperture of default exhaust gas by-pass valve according to aperture regulation instruction, and return execute the acquisition preset into The step of current pressure and Current Temperatures of gas manifold, until stopping when the current pressure is identical as the preset pressure Adjusting operation for the default exhaust gas by-pass valve, by the current aperture regulation to mesh corresponding with the preset pressure It marks aperture and the current pressure is adjusted to the preset pressure.

6. the turbocharging method as described in any one of claims 1 to 5, which is characterized in that described by the current air inlet After amount is compared with default Surging flow, the turbocharging method further include:

When the current air inflow is less than or equal to the default Surging flow, surge decision instruction is generated, according to the asthma Vibration decision instruction adjusts the current aperture of the default exhaust gas by-pass valve to the second default aperture, to enter standby mode.

7. the turbocharging method as described in any one of claims 1 to 5, which is characterized in that described by the current air inlet Before amount is compared with default Surging flow, the turbocharging method further include:

Obtain current pressure ratio；

Corresponding default Surging flow is inquired in default surge mapping relations according to the current pressure ratio, the default surge is reflected It penetrates in relationship including the corresponding relationship between pressure ratio and Surging flow.

8. a kind of pressurization control equipment, which is characterized in that the pressurization control equipment includes: memory, processor and is stored in Turbocharging program can be run on the memory and on the processor, the turbocharging program is held by the processor The step of turbocharging method as described in any one of claims 1 to 7 is realized when row.

9. a kind of storage medium, which is characterized in that be stored with turbocharging program, the turbocharging journey on the storage medium The step of turbocharging method as described in any one of claims 1 to 7 is realized when sequence is executed by processor.

10. a kind of turbo charging installation, which is characterized in that the turbo charging installation includes:

Information acquisition module, for acquiring the current pressure and Current Temperatures of default inlet manifold；

Air inflow determining module, for determining working as the default inlet manifold according to the current pressure and the Current Temperatures Preceding air inflow；

Flow comparison module, for the current air inflow to be compared with default Surging flow；

Regulation against surge module, for generating aperture regulation and referring to when the current air inflow is greater than the default Surging flow It enables, and according to aperture regulation instruction by the current aperture regulation of default exhaust gas by-pass valve to the first default aperture, to realize Turbo charged Regulation against surge.