JP4193400B2 - Engine with exhaust turbine supercharger - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an engine equipped with an exhaust turbine supercharger, which can activate the exhaust gas purifying catalyst at a rapid temperature increase at a cold start.
[0002]
[Prior art]
Global environmental problems and resource-saving problems due to automobile exhaust gases have been highlighted worldwide, and there is an urgent need for further improvements in exhaust gas and fuel consumption for automobile engines such as passenger cars.
[0003]
Various measures for improving exhaust gas and fuel efficiency have been studied and implemented, and one of them is to use an exhaust turbine supercharger to reduce fuel consumption by improving performance, and to improve exhaust gas purification. A catalyst is used.
[0004]
For example, in an engine with an exhaust turbine supercharger, the exhaust gas inlet 4 of the turbine housing 3 of the exhaust turbine supercharger 2 is connected to the exhaust manifold 1 of the engine and flows in, as schematically shown in FIG. The exhaust gas is sent to the turbine impeller 6 via the turbine scroll portion 5 and is driven to rotate, the exhaust gas discharged from the exhaust gas outlet portion 7 is discharged to the exhaust gas flow path 8, and the discharged exhaust gas is discharged into the exhaust gas flow. The exhaust gas purification catalyst 9 provided downstream of the passage 8 is passed through and purified, and then discharged into the atmosphere.
[0005]
Further, in order to control the supercharging pressure supplied to the engine, a bypass passage 10 and a waste gate valve 11 for bypassing the exhaust gas are provided between the exhaust gas inlet portion 4 and the exhaust gas outlet portion 7 so that the supercharging pressure is reduced. When the set value is exceeded, the wastegate valve 11 is opened, and a part of the exhaust gas is sent to the exhaust gas passage 8 by bypassing the turbine impeller 6.
[0006]
[Problems to be solved by the invention]
However, in such an engine with an exhaust turbine supercharger, the exhaust gas discharged from the exhaust manifold 1 of the engine is turbine housing even during a cold start (low temperature start) of the engine, as in normal operation. 3 is discharged from the exhaust gas flow path 8 through the turbine scroll part 5, the turbine impeller 6 and the exhaust gas outlet part 7, so that the heat of the exhaust gas is generated in each part of the turbine of the exhaust turbine supercharger. When the exhaust gas purification catalyst 9 is stolen, the temperature drop is large, the activation of the catalyst is delayed, and there is a problem that the exhaust gas cannot be purified until the catalyst is activated.
[0007]
Therefore, in order to accelerate the temperature rise of the exhaust gas purification catalyst 9 at such a cold start, it is conceivable to open the waste gate valve 11 and lead the exhaust gas directly to the exhaust gas flow path 8, but the waste gate valve 11 is provided. Since the bypass flow path 10 is narrow, a sufficient flow rate of the exhaust gas cannot be ensured, and there is much exhaust gas flowing in the turbine housing 3, so that the catalyst cannot be activated in a short time.
[0008]
The present invention has been made in view of the above-described problems of the prior art, and intends to provide an engine with an exhaust turbine supercharger that can be activated by stopping the temperature increase of the exhaust gas purification catalyst at the time of cold start. Is.
[0009]
[Means for Solving the Problems]
In order to solve the above-described problems of the prior art, an engine with an exhaust turbine supercharger according to claim 1 of the present invention includes an exhaust gas purification catalyst downstream of an exhaust gas passage of the exhaust turbine supercharger, and a bypass. An engine having a wastegate valve in a flow path, provided with a valve that can be opened and closed at a turbine outlet of the exhaust turbine supercharger, closing the valve when the engine is cold started, and opening the wastegate valve. A control device is provided for controlling the exhaust gas purification catalyst to be heated by the exhaust gas from the bypass flow path. The valve and the wastegate valve are each provided with an actuator, and the valve actuator is a negative of an intake manifold of the engine. The valve is closed using pressure, and the waist Actuator Tobarubu is a negative pressure in the intake manifold of the engine Let the negative pressure pipe act on one side of the actuator The wastegate valve Open And the engine The positive pressure supercharged is applied to the other side of the actuator through a positive pressure pipe. The waste gate valve is configured to open.
[0010]
According to the engine with an exhaust turbine supercharger, the exhaust gas purifying catalyst is provided downstream of the exhaust gas passage of the exhaust turbine supercharger, and the waste gate valve is provided in the bypass passage. A valve that can be opened and closed is provided at the turbine outlet of the turbine supercharger, and the valve is closed when the engine is cold started, and the wastegate purification catalyst is heated by the exhaust gas from the bypass passage by opening the waste gate valve. A control device for controlling the valve and the wastegate valve, each of which includes an actuator, and the valve actuator controls the negative pressure of the intake manifold of the engine. Let the negative pressure pipe act on one side of the actuator The wastegate valve Open And the engine The positive pressure supercharged is applied to the other side of the actuator through a positive pressure pipe. The waste gate valve is configured to open. When the engine is cold started, the valve provided at the turbine outlet is closed, and the waste gate valve is opened to direct exhaust gas directly from the bypass flow path to the exhaust gas purification catalyst. The exhaust gas can be purified by heating with a small exhaust gas and activating the catalyst in a short time.
In addition, the negative and positive pressures of the intake manifold can be used to operate the valves and wastegate valves reliably and efficiently. The cold start state, the non-cold start state, and the supercharging pressure exceed the set values. It is possible to switch between the three states in the case of
Furthermore, an engine with an exhaust turbine supercharger according to a second aspect of the present invention has the above-described configuration according to the first aspect. In addition, the engine of the engine is connected to the actuator of the valve and the actuator of the wastegate valve via a negative pressure three-way valve. The suction side of the intake manifold Said Connected by negative pressure piping, the engine through the control valve to the actuator of the wastegate valve The positive pressure side to be supercharged The negative pressure three-way valve is connected by a positive pressure pipe, and the negative pressure three-way valve is in a state where the negative pressure of the intake manifold of the engine acts on the actuator of the valve and the actuator of the waste gate valve and in a state where the negative pressure pipe is opened to the atmosphere And the control valve is capable of adjusting a positive pressure acting on an actuator of the wastegate valve.
Also in the engine with an exhaust turbine supercharger according to claim 2 of the present invention, the valve provided at the turbine outlet is closed at the cold start of the engine, the wastegate valve is opened, and the exhaust gas purification catalyst is directly supplied from the bypass passage. It is possible to purify the exhaust gas by heating the exhaust gas with a small temperature drop and activating the catalyst in a short time.
According to a third aspect of the present invention, in addition to the configuration according to the first or second aspect, the control device may include the actuator of the valve and the wastegate at a cold start of the engine. Negative pressure is applied to each valve actuator. Except during cold start, the negative pressure pipe is opened to the atmosphere. If the supercharging pressure exceeds the set value, the positive pressure of the positive pressure pipe is adjusted. It is characterized by performing control.
Also in the engine with an exhaust turbine supercharger according to claim 3 of the present invention, the valve provided at the turbine outlet is closed at the cold start of the engine, the wastegate valve is opened, and the exhaust gas purification catalyst is directly supplied from the bypass passage. It is possible to purify the exhaust gas by heating the exhaust gas with a small temperature drop and activating the catalyst in a short time.
[0011]
Further, the claims of the present invention 4 The engine with an exhaust turbine supercharger according to claim 1 to 3 In addition to the configuration described above, the bypass flow path in which the waste gate valve is provided is configured to connect the exhaust gas inlet to the exhaust turbine supercharger and the exhaust gas purification catalyst in the shortest distance. It is.
[0012]
According to this engine with an exhaust turbine supercharger, the bypass flow path provided with the waste gate valve is configured to connect the exhaust gas inlet to the exhaust turbine supercharger and the exhaust gas purification catalyst in the shortest distance. Therefore, the bypass flow path for guiding the exhaust gas to the catalyst is minimized to suppress the temperature drop of the exhaust gas as much as possible, and the catalyst can be activated in a shorter time.
[0013]
Further claims of the invention 5 An engine with an exhaust turbine supercharger as claimed in claim Any one of 1-4 In addition to the configuration described above, the waste gate valve is configured not to interfere with the exhaust gas flowing through the bypass passage at the fully open position at the cold start.
[0014]
According to this engine with an exhaust turbine supercharger, the wastegate valve is configured not to interfere with the exhaust gas flowing through the bypass passage at the fully open position at the time of cold start. By adopting a wastegate valve configuration such as the arrangement of the oscillating shaft and increasing the valve opening, the temperature drop of the exhaust gas is suppressed as much as possible so as not to collide with the exhaust gas. Can be activated.
[0015]
Further, the claims of the present invention 6 The engine with an exhaust turbine supercharger according to claim 1, 5 In addition to the configuration described in any one of the above, the control device is configured to fully open the waste gate valve at a cold start and control to an intermediate opening when adjusting a supercharging pressure.
[0016]
According to this engine with an exhaust turbine supercharger, the control device is configured such that the waste gate valve is fully opened at a cold start and is controlled to an intermediate opening degree at the time of supercharging pressure adjustment. The waste gate valve is fully opened at a cold start. As a result, the temperature drop due to the collision of exhaust gas is suppressed, and the wastegate valve is also used for catalyst activation at cold start by controlling with the control device so that part of the exhaust gas is bypassed when adjusting the original supercharging pressure. ing.
[0017]
Further claims of the invention 7 The engine with an exhaust turbine supercharger according to claim 1, 6 In addition to the configuration described in any one of the above, the valve provided at the turbine outlet is configured by integrally forming the valve body and the stem, and forming the mounting groove portion of the stem in the turbine housing and incorporating the stem into the turbine housing. It is characterized by that.
[0018]
According to the engine with the exhaust turbine supercharger, the valve provided at the turbine outlet is configured by integrally forming the valve body and the stem, and forming the mounting groove portion of the stem in the turbine housing. For example, the valve body and stem of the butterfly valve are integrated and incorporated into the turbine housing using the mounting groove, thereby reducing the number of parts and reducing the size and size.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
1 and 2 relate to an embodiment of an engine with an exhaust turbine supercharger according to the present invention, FIG. 1 (a) is a partially enlarged sectional view of an exhaust system, FIG. 1 (b) is a front view of a valve portion, FIG. 2 is a schematic configuration diagram according to an example of a control system at a cold start.
[0020]
As shown in FIG. 1, the engine 20 with the exhaust turbine supercharger includes an exhaust turbine supercharger 22, and controls the supercharging pressure by the wastegate valve 33 and the control device 50 and purifies the exhaust gas with the exhaust gas. The basic structure to be purified by the catalyst 31 is the same as that of the engine shown in FIG.
[0021]
In this engine 20 with an exhaust turbine supercharger, an exhaust gas inlet portion 24 of a turbine housing 23 of the exhaust turbine supercharger 22 is connected to an exhaust manifold 21 of the engine, and the inflowing exhaust gas is passed through a turbine scroll portion 25. A compressor impeller 28 that is sent to the turbine impeller 26 and rotated and driven coaxially with the turbine shaft 27 is used to supercharge intake air to the engine.
[0022]
The exhaust gas that has driven the turbine impeller 26 is discharged from the exhaust gas outlet 29 of the turbine housing 23 to the exhaust gas passage 30 and passes through the exhaust gas purification catalyst 31 provided downstream of the exhaust gas passage 30. After being purified, it is discharged into the atmosphere.
[0023]
Further, in order to control the supercharging pressure supplied to the engine, a bypass flow that bypasses the exhaust gas between the exhaust gas inlet portion 24 and the exhaust gas outlet portion 29 of the turbine housing 23 and leads directly to the exhaust gas passage 30. A waste gate valve 33 that opens and closes the passage 32 and the bypass passage 32 is provided. When the supercharging pressure exceeds a set value, the waste gate valve 33 is opened and a part of the exhaust gas is exhausted by bypassing the turbine impeller 26. By sending to the gas flow path 30, the output of the turbine is suppressed and the supercharging pressure is set to a set value.
[0024]
In addition to this basic configuration, in the engine 20 with the exhaust turbine supercharger, a valve 34 is provided at the exhaust gas outlet portion 29 of the turbine housing 23 in order to accelerate the activation of the exhaust gas purification catalyst 31 at the cold start. Yes, the exhaust gas outlet 29 can be sealed.
[0025]
The valve 34 is constituted by, for example, a butterfly valve. As shown in FIG. 1B, stems 36 protrude from both ends in the radial direction of a disk-shaped valve body 35 and are integrally provided by welding or the like. It is mounted (so-called fooling) through a mounting groove portion 37 corresponding to the stem 36 formed on the shaft 23 and is rotatably supported. An operation shaft 38 is connected to one stem 36 from the outside and operated. It can be opened and closed by an actuator 40 via a lever 39. The turbine housing 23 in which the valve 34 is provided is formed with a stepped seal surface 41 so that the valve 34 can be sealed, and the stem 36 comes into contact with the seal surface 41 when the valve body 35 is closed. A sealing surface 41 is formed by steps in opposite directions with respect to the center.
[0026]
In addition to the case where the stems 36 are provided at both ends of the valve main body 35, the valve 34 may be provided with a stem only at one end, and a separate part such as welding may be attached, or it may be integrally manufactured by casting or the like. You may make it do.
[0027]
The valve 34 is fully closed by the actuator 40 when the engine is cold-started, and is otherwise fully opened. As the actuator 40, for example, a negative pressure actuator is used, and intake negative at the time of engine start is used. Using the pressure, the valve 34 is opened, and otherwise, the valve 34 is opened to the atmosphere and the valve 34 is closed.
[0028]
Further, in the engine 20 with the exhaust turbine supercharger, the exhaust gas to the turbine housing 23 is stopped by closing the valve 34 at the cold start of the engine, and the waste gate valve 33 of the bypass passage 32 is opened to directly exhaust the exhaust gas. The exhaust gas is sent to the exhaust gas purification catalyst 31 via the exhaust gas flow path 30, and the catalyst is activated in a short time by suppressing the temperature drop of the exhaust gas on the way.
[0029]
For this reason, the operating shaft 43 is connected from the outside to the swing shaft 42 of the swing check valve constituting the waste gate valve 33 and can be opened and closed by the actuator 45 via the operating lever 44. A pressure / positive pressure actuator is used, and the waste gate valve 33 is fully opened using the intake negative pressure at the start of the engine. Otherwise, the waste gate valve 33 is opened at an intermediate opening using the positive pressure during supercharging. Operate to
[0030]
As a control device 50 for controlling the actuator 40 of the valve 34 and the actuator 45 of the wastegate valve 33, an engine control unit (ECU) 51 is used as shown in FIG. The actuators 40 and 45 are connected to the intake manifold (not shown) of the engine via a negative pressure pipe 53 so that negative pressure can be used. The positive pressure side of the actuator 45 is also connected to the positive pressure of the intake manifold of the engine. Are connected by a positive pressure pipe 55 via an electromagnetic control valve (DSV) 54.
[0031]
Therefore, in the engine 20 with the exhaust turbine supercharger, when the engine is cold started, the negative pressure three-way valve 52 is driven by the drive signal from the engine control unit 51 so that the actuators 40 and 45 are connected via the negative pressure pipe 53. The negative pressure generated in the intake manifold acts so that the valve 34 is closed to prevent the exhaust gas from flowing through the turbine housing 23, and the wastegate valve 33 of the bypass passage 32 is opened to directly exhaust the exhaust gas. The exhaust gas is sent to the exhaust gas purification catalyst 31 via the exhaust gas passage 30.
[0032]
As a result, the catalyst can be activated in a short time while suppressing the temperature drop of the exhaust gas on the way, and the exhaust gas can be purified even during a cold start.
[0033]
On the other hand, in order to perform supercharging by the exhaust turbine supercharger 22 except during a cold start, the negative pressure three-way valve 52 is driven by a drive signal from the engine control unit 51 and connected to the respective actuators 40 and 45. The negative pressure pipe 53 is opened to the atmosphere, the valve 34 is fully opened so that the exhaust gas flows through the turbine housing 23, and the wastegate valve 33 of the bypass flow path 32 is fully closed.
[0034]
When the supercharging pressure exceeds the set value, the positive pressure of the intake manifold is applied to the positive pressure pipe 55 connected to the actuator 45, and an electromagnetic control valve (DSV) is driven by a drive signal from the engine control unit 51. 54 is adjusted to adjust the positive pressure, and the wastegate valve 33 is opened to bypass a part of the exhaust gas to the bypass passage 32, thereby suppressing the turbine output and adjusting the supercharging pressure.
[0035]
It is to be noted that the temperature of the exhaust gas purification catalyst has risen and that the catalyst has been activated is detected by a temperature sensor or the like. To do.
[0036]
According to such an engine 20 with an exhaust turbine supercharger, when the engine is cold started, the valve 34 provided at the exhaust gas outlet 29 is closed, and the wastegate valve 33 is opened to exhaust the exhaust gas directly from the bypass passage 32. The exhaust gas can be purified by heating to the gas purifying catalyst 31 and heating the exhaust gas with a small temperature drop in a short time to activate the catalyst.
[0037]
In addition, in the engine 20 with the exhaust turbine supercharger, in order to suppress the temperature drop of the exhaust gas at the cold start, it is preferable that the pipe diameter of the bypass passage 32 is large and the pipe length is short. As a result, the bypass passage 33 is thicker than the conventional passage so as to connect the exhaust gas inlet 24 to the exhaust turbine supercharger 32 and the exhaust gas purification catalyst 31 in the shortest distance. In addition, the piping length is short as an oblique flow path rather than a direction perpendicular to the turbine housing 23, and the exhaust gas flows smoothly. Further, by providing the notch 32a at the outlet portion of the bypass flow path 32, the exhaust gas can flow more smoothly, thereby further suppressing the temperature drop.
[0038]
Further, in the engine 20 with the exhaust turbine supercharger, the flange 24a of the exhaust gas inlet portion 24 of the turbine housing 23 is generated due to the bypass passage 32 being an oblique passage rather than a direction perpendicular to the turbine housing 23. And the flange 21a of the exhaust manifold 21 of the engine is also substantially perpendicular to the bypass flow path 32, so that the exhaust gas inlet 24 and the exhaust gas are The purification catalyst 31 is connected to the shortest flow path.
[0039]
Further, in this engine 20 with the exhaust turbine supercharger, the diameter of the valve port is reduced so that the wastegate valve 33 provided in the bypass passage 32 does not interfere with the exhaust gas flowing at the cold start so as to suppress the temperature drop. The swinging shaft 42 of the swing check valve is arranged on the side that can be parallel to the channel at a small angle when the waste gate valve 33 is fully opened outside the oblique bypass channel 32.
[0040]
That is, in the illustrated example, as shown in FIG. 1 (a), the bypass flow path 32 is inclined from the upper right to the lower left, and the waste gate valve 33 opens and closes the valve ports on the upper and lower straight lines. The swinging shaft 42 is disposed above 32 and is swung about 60 degrees to be fully opened, so that it can be retracted so as not to collide with the exhaust gas parallel to or behind the bypass flow path 32. (Note that the upper, lower, left, and right directions here are irrelevant to the actual direction of the engine and are on the paper, and are determined for the sake of explanation).
[0041]
The full opening angle of the waste gate valve 33 is set to an angle that does not interfere (collision) with the exhaust gas flowing through the bypass flow path 32, and at the cold start, the exhaust gas temperature is reduced by suppressing the exhaust gas from being fully opened. .
[0042]
When adjusting the original supercharging pressure, it is sufficient that a part of the exhaust gas can be bypassed, and problems such as a temperature drop due to interference with the valve do not occur.
[0043]
An exhaust turbine supercharger in which the bypass passage 32 provided with such a waste gate valve 33 is configured with an oblique passage so as to connect the exhaust gas inlet 24 of the turbine housing 23 and the exhaust gas purification catalyst 31 in the shortest distance. According to the engine 20, the exhaust gas at the time of cold start can be guided to the exhaust gas purification catalyst 31 through the short and thick bypass passage 32, and the activation of the catalyst can be activated in a shorter time by suppressing the temperature drop of the exhaust gas as much as possible. Can be planned.
[0044]
Further, the exhaust gate is configured such that the waste gate valve 33 is disposed outside so that the waste gate valve 33 does not interfere with the exhaust gas flowing through the bypass passage 32 in the fully open position at the time of cold start, and the opening degree of the valve is increased. According to the supercharger-equipped engine 20, the wastegate valve 33 and the exhaust gas can be prevented from colliding with each other, the temperature drop of the exhaust gas can be suppressed as much as possible, and the catalyst can be activated in a shorter time. .
[0045]
And, according to the engine 20 with the exhaust turbine supercharger in which the configuration of the bypass flow path 32 and the configuration of the waste gate valve 33 are all combined, the exhaust gas inlet portion 34 of the turbine housing 23 of the exhaust turbine supercharger 22 is used. The temperature drop of the exhaust gas between the gas and the exhaust gas outlet 29 can be suppressed to about 40 ° C., for example, as shown by the solid line in FIG.
[0046]
In the conventional engine, since the exhaust gas passes through the turbine scroll portion of the turbine housing and reaches the exhaust gas outlet, the temperature drop of the exhaust gas is about 175 ° C., for example, as indicated by the broken line in FIG. It can be seen that it takes a long time to activate the catalyst.
[0047]
In the above embodiment, the valve provided at the exhaust gas outlet is configured as a butterfly valve. However, the present invention is not limited thereto, and may be configured as a valve having an oblique sealing surface such as a gate valve or another type of valve. good.
[0048]
In addition, although the actuator for operating the valve and wastegate valve is configured with a diaphragm type that uses negative pressure or positive pressure generated in the intake manifold, it is not limited to this, and pneumatic type or other fluid pressure using compressed air is used. It may be an operation type, or may be a motor type or an electromagnetic type electric type.
[0049]
【The invention's effect】
As described above in detail with reference to the embodiment, according to the engine with an exhaust turbine supercharger according to claim 1 of the present invention, the exhaust gas purification catalyst is disposed downstream of the exhaust gas passage of the exhaust turbine supercharger. An engine having a wastegate valve in a bypass flow path, wherein a valve that can be opened and closed is provided at a turbine outlet of the exhaust turbine supercharger, the valve is closed at a cold start of the engine, and the waist A control device is provided for controlling the exhaust gas purification catalyst to be heated by the exhaust gas from the bypass flow path by opening the gate valve, and the valve and the waste gate valve are each provided with an actuator, and the valve actuator is the engine The negative pressure of the intake manifold Let the negative pressure pipe act on one side of the actuator Open the wastegate valve and the engine The positive pressure supercharged is applied to the other side of the actuator through a positive pressure pipe. Since the wastegate valve is configured to open, the valve provided at the turbine outlet is closed when the engine is cold started, and the wastegate valve is opened to guide exhaust gas directly from the bypass flow path to the exhaust gas purification catalyst. The exhaust gas can be purified by heating the exhaust gas with a small drop and activating the catalyst in a short time.
In addition, the negative and positive pressures of the intake manifold can be used to operate the valves and wastegate valves reliably and efficiently. The cold start state, the non-cold start state, and the supercharging pressure exceed the set values. The three states can be switched.
Further, in the engine with an exhaust turbine supercharger according to claim 2 or 3 of the present invention, the valve provided at the turbine outlet is closed at the time of cold start of the engine, the wastegate valve is opened, and the exhaust gas is directly discharged from the bypass passage. The exhaust gas can be led to the exhaust gas purification catalyst, and the exhaust gas can be purified by heating the exhaust gas with a small temperature drop to activate the catalyst in a short time.
[0050]
Further, the claims of the present invention 4 According to the described engine with an exhaust turbine supercharger, the bypass flow path provided with the wastegate valve is configured to connect the exhaust gas inlet to the exhaust turbine supercharger and the exhaust gas purification catalyst in the shortest distance. Therefore, the bypass flow path for guiding the exhaust gas to the catalyst can be minimized to suppress the temperature drop of the exhaust gas as much as possible, and the catalyst can be activated in a shorter time.
[0051]
Further claims of the invention 5 According to the described engine with an exhaust turbine supercharger, the wastegate valve is configured not to interfere with the exhaust gas flowing through the bypass passage at the fully open position at the cold start. By adopting a wastegate valve configuration such as the arrangement of the valve swing shaft and increasing the valve opening, the temperature drop of the exhaust gas is suppressed as much as possible without colliding with the exhaust gas. The catalyst can be activated.
[0052]
Further, the claims of the present invention 6 According to the described engine with an exhaust turbine supercharger, the control device is configured such that the waste gate valve is fully opened at a cold start and is controlled to an intermediate opening degree at a boost pressure adjustment. Is fully open to suppress the temperature drop due to the collision of exhaust gas, and the wastegate valve is also used for catalyst activation at cold start by controlling with the control device so that part of the exhaust gas is bypassed when adjusting the original supercharging pressure be able to.
[0053]
Further claims of the invention 7 According to the described engine with an exhaust turbine supercharger, the valve provided at the turbine outlet is configured such that the valve body and the stem are integrally formed, and the mounting groove portion of the stem is formed in the turbine housing and is incorporated in the turbine housing. Therefore, for example, by integrating the valve body and stem of the butterfly valve into the turbine housing using the mounting groove, the number of parts can be reduced and the size and size can be reduced.
[Brief description of the drawings]
FIG. 1 shows an embodiment of an engine with an exhaust turbine supercharger according to the present invention, in which (a) is a partially enlarged sectional view of an exhaust system and FIG. 1 (b) is a front view of a valve portion.
FIG. 2 is a schematic configuration diagram according to an example of a control system at a cold start according to an embodiment of the engine with an exhaust turbine supercharger of the present invention.
FIG. 3 is an explanatory view showing a temperature drop of exhaust gas according to an embodiment of an engine with an exhaust turbine supercharger of the present invention in comparison with a conventional engine.
FIG. 4 is a schematic configuration diagram of a conventional exhaust turbine supercharger engine.
[Explanation of symbols]
20 Engine with exhaust turbine supercharger
21 Exhaust manifold
22 Exhaust turbine supercharger
23 Turbine housing
24 Exhaust gas inlet (exhaust gas inlet)
25 Turbine scroll part
26 Turbine impeller
27 Turbine shaft
28 Compressor impeller
29 Exhaust gas outlet (exhaust gas outlet)
30 Exhaust gas flow path
31 Exhaust gas purification catalyst
32 Bypass channel
33 Wastegate valve
34 Valve
35 Valve body
36 stem
37 Groove for mounting
40 Actuator
45 Actuator
50 Control device
51 ECU
52 negative pressure three-way valve
54 Electromagnetic control valve
55 Positive pressure piping

Claims (7)

An engine having an exhaust gas purifying catalyst downstream of an exhaust gas flow path of an exhaust turbine supercharger and a wastegate valve in a bypass flow path, which can be opened and closed at a turbine outlet of the exhaust turbine supercharger Providing a control device for closing the valve at a cold start of the engine and controlling the exhaust gas purification catalyst to be heated by the exhaust gas from the bypass flow path by opening the waste gate valve;
The valve and the wastegate valve are each provided with an actuator,
The valve actuator is configured to close the valve using the negative pressure of the intake manifold of the engine,
The actuator of the waste gate valve causes the negative pressure of the intake manifold of the engine to act on one side of the actuator through a negative pressure pipe to open the waste gate valve, and positive pressure supplied to the engine is positive. An engine with an exhaust turbine supercharger , wherein the waste gate valve is configured to open on the other side of the actuator by pressure piping . Via the negative pressure three-way valve to the actuator of the wastegate valve and actuator of the valve connecting the suction side of the intake manifold of the engine in the negative pressure pipe,
A positive pressure side that is supercharged and supplied to the engine via a control valve is connected to the actuator of the waste gate valve by the positive pressure pipe,
The negative pressure three-way valve can be switched between a state where the negative pressure of the intake manifold of the engine acts on the actuator of the valve and the actuator of the waste gate valve, and a state where the negative pressure pipe is opened to the atmosphere.
The engine with an exhaust turbine supercharger according to claim 1, wherein the control valve is capable of adjusting a positive pressure acting on an actuator of the waste gate valve. The control device causes negative pressure to act on the actuator of the valve and the actuator of the wastegate valve at a cold start of the engine,
Except during cold start, open the negative pressure pipe to the atmosphere,
The engine with an exhaust turbine supercharger according to claim 1 or 2, wherein when the supercharging pressure exceeds a set value, control is performed to adjust the positive pressure of the positive pressure pipe. 4. The bypass flow path in which the waste gate valve is provided is configured to connect the exhaust gas inlet to the exhaust turbine supercharger and the exhaust gas purification catalyst in the shortest distance. An engine with an exhaust turbine supercharger according to claim 1. The engine with an exhaust turbine supercharger according to any one of claims 1 to 4, wherein the waste gate valve is configured not to interfere with exhaust gas flowing through the bypass passage at a fully open position at a cold start. .   6. The exhaust turbine supercharging according to claim 1, wherein the control device is configured to fully open the waste gate valve at a cold start and control to an intermediate opening when adjusting a supercharging pressure. Engine with a machine. The valve provided at the turbine outlet includes a valve body and a stem which are integrally formed, and a groove for mounting the stem is formed in the turbine housing and is incorporated in the turbine housing. The engine with an exhaust turbine supercharger according to any one of 1 to 6.

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