KR20060022779A - Egr valve - Google Patents

Abstract

The present invention relates to an EGR valve for suppressing the occurrence of metallic joints due to the shaking of the valve body due to the exhaust pulsation of the exhaust system in the operating region of the engine is not provided with a negative pressure for the operation of the EGR valve,

A cylindrical housing, a valve shaft inserted into the housing, a cylindrical cylinder attached to one end of the valve shaft, and a diaphragm provided on one side of the housing for driving the valve shaft. In the EGR valve for controlling the amount of EGR gas induced into the intake machine at

The valve body is closed by an upper surface on which the valve shaft is fixed, and a lower surface thereof is formed by an open cylindrical cylindrical piston, and a through hole for communicating with an EGR outlet is formed through the side surface of the cylindrical piston. The upper and lower cylindrical piston outer periphery of the characterized in that the sealing for mounting the airtightness with the inner surface of the housing.

EGR valve, cylindrical cylinder, sealing

Description

EZR valve

1 is a cross-sectional view of an EGR valve according to the present invention.

2 is a perspective view of a cylindrical piston according to the present invention.

Figure 3 is an operating state of the EGR valve according to the present invention.

4 is a diagram for explaining a conventional technology.

※ Explanation of code for main part of drawing

20: EGR valve 21: housing

22: cylinder 23: EGR inlet

24: EGR Exit 25: Diaphragm

26: valve shaft 27: diaphragm case

28: negative pressure chamber 29: spring

30 cylindrical cylinder 31 through hole

32: ring groove 34: sealing

The present invention relates to an EGR valve, and more particularly to an EGR for suppressing the occurrence of metallic joints caused by the shaking of the valve body by the exhaust pulsation of the exhaust system in the operating region of the engine is not provided with a negative pressure for the operation of the EGR valve. It is about a valve.

In the case of a diesel engine, in order to reduce the rust contained in exhaust gas, it is common to equip the exhaust gas recirculation apparatus (EGR) which recycles a part of exhaust gas discharged to an exhaust system to an intake system side.

FIG. 4 is a view showing an EGR valve 10 generally used in the related art, in which a valve shaft 12 is inserted into a central portion of a housing 11 having a cross-sectional elbow shape, and the valve shaft 12 At the lower end of the poppet valve 13 and the diaphragm 14, respectively, are assembled to be operated integrally. The valve seat 11a which is in contact with the valve surface of the poppet valve 13 is provided in the surface of the housing 11 in which the poppet valve 13 is located.

On the other hand, the diaphragm 14 is accommodated in the diaphragm case 15 that is assembled up and down, one side of the diaphragm case 15 based on the diaphragm 14 is composed of a negative pressure chamber 16 In the negative pressure chamber 16, a spring 17 for elastically supporting the diaphragm 14 is accommodated. In particular, in order to operate the poppet valve 13 according to the operating region of the engine, a middle of the negative pressure chamber 16 is connected by a negative pressure line 18 connected to the engine negative pressure side.

Therefore, when the region in which the engine is operated corresponds to the region in which the EGR gas is supplied to the intake machine, the engine negative pressure is transmitted to the negative pressure chamber 16 through the negative pressure line 18 under the control of the electronic controller. The valve shaft 12 is pulled with the movement of the ram 14 so that the poppet valve 13 is spaced from the valve seat 11a to allow the input of EGR gas to the intake system.

However, the poppet valve is in a state in which the operating region of the engine is supported only by the elastic force of the spring when the operating region of the engine does not act as a negative pressure, and thus is shaken by the exhaust pulsation of the exhaust system, thereby causing a metallic joint.

Therefore, the present invention has been made to solve the above problems, to suppress the occurrence of metallic joints due to the shaking of the valve body due to the exhaust pulsation of the exhaust system in the operating region of the engine is not provided with a negative pressure for the operation of the EGR valve. The purpose is to provide an EGR valve.

The present invention as a means for achieving the above object,

A cylindrical housing, a valve shaft inserted into the housing, a cylindrical cylinder attached to one end of the valve shaft, and a diaphragm provided on one side of the housing for driving the valve shaft. In the EGR valve for controlling the amount of EGR gas induced into the intake machine at

The valve body is closed by an upper surface on which the valve shaft is fixed, and a lower surface thereof is formed by an open cylindrical cylindrical piston, and a through hole for communicating with an EGR outlet is formed through the side surface of the cylindrical piston. The upper and lower cylindrical piston outer periphery of the characterized in that the sealing for mounting the airtightness with the inner surface of the housing.

Hereinafter, with reference to the accompanying drawings, preferred embodiments according to the configuration and operation of the EGR valve configured by the present invention will be described in detail as follows.

1 is a cross-sectional view of an EGR valve according to the present invention, Figure 2 is a perspective view of a cylindrical piston according to the present invention, Figure 3 is an operating state diagram of the EGR valve according to the present invention.

Reference numeral 20 shown in the drawing indicates an EGR valve formed by the present invention, and reference numeral 30 indicates a cylindrical piston according to the present invention.

The EGR valve 20 is operated by receiving a negative pressure on the engine side, and the configuration of the diaphragm 25 or the like forms the same structure as the conventional EGR valve described in the description of the prior art.

However, in the EGR valve 20 according to the present invention, since the valve body for controlling the inflow and outflow of the EGR gas is formed of a cylindrical piston, the housing 21 to accommodate and operate the cylindrical piston 30 according to the present invention. The cylinder 22 is provided with a predetermined stroke in the interior thereof. The open lower end side of the cylinder 22 is the EGR inlet 23, and the space opened to the side side is the EGR outlet 24.

The valve shaft 26 is inserted into a predetermined section through the upper end of the housing 21, and the upper end of the cylindrical piston 30 is fixedly mounted at the lower end thereof, and the lower end is fixedly mounted at the center of the diaphragm 25. do.

A negative pressure chamber 28 is provided at one side of the diaphragm case 27 accommodating the diaphragm 25, and the negative pressure chamber 28 is provided to elastically support the diaphragm 25 as in the case of the prior art. Spring 29 is received. In addition, the negative pressure line 27a is connected to one side of the diaphragm case 27 so that the negative pressure of the engine side can be transferred to the negative pressure chamber 28.

The biggest reason for using the cylindrical piston 30 as the valve body of the EGR valve 20 is that the pulsation of the exhaust gas transmitted from the exhaust measurement to the EGR valve side in the section in which the engine operating region is not under negative pressure is formed. To reduce the generation of noise generated. To this end, there is no valve seat in the EGR valve 20 that collides with the valve body by the use of the cylindrical piston 30. In other words, the conventional opening and closing method for collision between the valve body and the valve seat is changed to the opening and closing method of the EGR outlet 24 by sliding of the cylindrical piston 30.

In the middle of the cylindrical piston 30 for opening and closing of the EGR outlet 24, a through hole 31 for communicating with the EGR outlet 24 is formed therethrough. The shape of the through hole 31 is determined in accordance with the shape of the EGR outlet 24. In the closing operation of the EGR valve 20, the through hole 31 is located at the lower side of the EGR outlet 24 without communicating with each other, and in the opening operation, the through hole 31 and the EGR outlet 24 are closed. It is set at a position in communication with each other.

In addition, in order to prevent the EGR gas from leaking out during the operation of the cylindrical piston 30, a seal for maintaining airtightness during the outer periphery of the cylindrical piston 30 in the upper position and the lower position of the through hole 31, respectively ( 34) is mounted.

In order to mount the seal 34, an annular ring groove 32 is formed to a predetermined depth in the middle of the outer circumference of the cylindrical piston 30.

Referring to the operating state of the EGR valve configured as described above are as follows.                     

When the engine is equipped with the EGR valve 20 and the operating region of the engine is to be supplied with the EGR gas, the negative pressure chamber 27 is controlled through the negative pressure line 27a under the control of the electronic controller. A negative pressure is transmitted to 28). Then, the diaphragm 25 and the valve shaft 26 are operated by the negative pressure transmitted to the negative pressure chamber 28, and the cylindrical piston 30 is raised in the drawing, so that the through hole 31 and the EGR outlet 24 are operated. Are in communication with each other. Since the EGR outlet 24 is always in an open state, the EGR outlet 24 is opened and the EGR gas of the EGR line is supplied to the intake of the engine.

On the other hand, when the operating region of the engine is operated in a region where no negative pressure is generated, the diaphragm 25 is elastically supported by the spring 29 so that the cylindrical piston 30 is lowered in the drawing. Becomes That is, inflow of the EGR gas to the intake machine is blocked while the through hole 31 and the EGR outlet 24 are shifted from each other.

In this process, the pulsation of the exhaust system can be transmitted to the EGR inlet 23 side. The cylindrical piston 30 of the EGR valve 20 according to the present invention is transmitted from the exhaust system while being in an interview state in the cylinder 22. Noise caused by the pulsation of the exhaust gas is not generated.

In addition, since the sealing 34 is mounted on the outer periphery of the upper and lower portions of the cylindrical piston 30, the leakage of EGR gas through the space between the side surface of the cylindrical piston 30 and the inner wall of the cylinder 22 is prevented. Is prevented.

According to the present invention configured as described above, not only the occurrence of metallic noise due to the vibration of the valve body of the EGR valve due to the exhaust gas pulsation of the exhaust system in the operating region of the engine where no negative pressure is formed can be prevented, There is a big advantage that the leakage of EGR gas can be prevented by the seal mounted during the casting.

Claims (3)

A cylindrical housing, a valve shaft inserted into the housing, a cylindrical cylinder attached to one end of the valve shaft, and a diaphragm provided on one side of the housing for driving the valve shaft. In the EGR valve for controlling the amount of EGR gas induced into the intake machine at The valve body is closed by an upper surface on which the valve shaft 26 is fixed, and a lower surface thereof is formed by an open cylindrical cylindrical piston 30, and communicates with the EGR outlet 24 in the middle of the side surface of the cylindrical piston 30. EGR valve, characterized in that the through-hole 31 to be through. The method of claim 1, EGR valve, characterized in that the upper and lower cylindrical piston (30) outer periphery of the through hole (31) is equipped with a sealing (34) for maintaining the airtightness with the inner surface of the housing (21). The method of claim 2, EGR valve, characterized in that the annular ring groove 32 is formed in a predetermined depth at the corresponding position of the outer circumference of the cylindrical piston (30) for the mounting of the seal (34).

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