KR20230086443A - Outlet check valve for high-pressure pump - Google Patents

Abstract

The present invention is inserted into the discharge passage and fastened, the inlet is formed so that the fuel flows in, and the sheet is provided with an inner space formed so that the width is different according to the plate surface direction; A ball member inserted into the inner space of the seat to selectively open and close the inlet, slides while being guided by the wall surface of the inner space, both sides of the outer surface of which are narrow, and is formed in a spherical shape to make line contact with the circumference of the inlet. and; a valve sleeve inserted into and fastened to the discharge passage, formed with a discharge port through which fuel is discharged, and having a stopper bent at an upper end; It is disposed between the ball member and the stopper formed on the valve sleeve to elastically support the ball member in a direction to close the inlet, and when the pressure of the fuel discharged to the discharge passage exceeds a set value, the inlet is elastically compressed. an elastic spring to be opened; By providing an outlet check valve for high-pressure pumps, it is possible to prevent seat deformation due to temperature and assembly through a change in seat material, and a structure by reducing the sealing point of the assembly part from 3 points to 2 points through a change in the structure of the assembly part. In addition, it is possible to improve the restart performance after vehicle driving by improving the airtightness of the outlet check valve by changing from a single sealing structure by press-fitting to a double-sealing structure of press-fitting and metal.

Description

Outlet check valve for high pressure pump {OUTLET CHECK VALVE FOR HIGH-PRESSURE PUMP}

The present invention relates to an outlet check valve for a high-pressure pump, and more particularly, to an outlet check valve for a high-pressure pump capable of improving restart performance after driving a vehicle by improving the airtight structure of the outlet check valve of the high-pressure pump.

Unlike the GDI system, the LPDI system uses LPG fuel, which reacts sensitively to the ambient temperature and has the characteristic of frequent phase change (liquid phase → gas phase) depending on the temperature.

In the LPDI system, the fuel supplied to the engine must be maintained/supplied in liquid state, and there is no problem with liquid fuel supply during normal driving. It causes a phase change (liquid phase → gas phase).

In this case, the pressure and fuel inside the fuel rail must be maintained through the outlet check valve of the high-pressure pump, which is closely related to the airtightness of the outlet check valve. In the case of GDI high-pressure pumps, there is no phase change of gasoline fuel, so the outlet check valve airtightness is managed at the level of Δ2bar/min. need.

However, in such a conventional outlet check valve, the conventional outlet check valve has been partially improved by applying PAI or PEEK material and a line contact structure to the seat portion to secure airtightness, but deformation of the seat portion due to temperature and assembly, assembly portion There is a problem in that the restart is impossible and the start is delayed due to the leakage of the outlet check valve.

The object of the present invention, devised in view of the above, is to prevent sheet deformation due to temperature and assembly by changing the sheet material, and to change the sealing point of the assembly unit from 3 points to 2 points by changing the structure of the assembly unit It not only compensates for structural problems by reducing the size, but also changes from a single sealing structure by press-fitting to a double-sealing structure with press-fitting and metal to improve the airtightness of the outlet check valve, thereby improving the restart performance after driving the outlet check valve for high pressure pumps. is in providing

An outlet check valve for a high-pressure pump to achieve the object of the present invention as described above is inserted into a discharge passage and has an inlet opening to allow fuel to flow in, and a seat provided with an inner space formed to have a different width according to the direction of the plate surface. and; A ball member inserted into the inner space of the seat to selectively open and close the inlet, slides while being guided by the wall surface of the inner space, both sides of the outer surface of which are narrow, and is formed in a spherical shape to make line contact with the circumference of the inlet. and; a valve sleeve inserted into and fastened to the discharge passage, formed with a discharge port through which fuel is discharged, and having a stopper bent at an upper end; It is disposed between the ball member and the stopper formed on the valve sleeve to elastically support the ball member in a direction to close the inlet, and when the pressure of the fuel discharged to the discharge passage exceeds a set value, the inlet is elastically compressed. an elastic spring to be opened; characterized by including

Here, an upper portion of the outer surface of the sheet may be provided with an externally protruding protrusion for press-fitting so that the sheet is fixed to the discharge passage by press-fitting.

In addition, a first inclined surface formed on a lower surface of the protrusion for press-fitting is formed to be inclined upward so that the width gradually increases toward the outside, and a metal sealing may be installed around the first inclined surface.

In addition, a second inclined surface is formed on the upper surface of the inlet formed on the sheet, so that the circumference of the inlet and the ball member can be in line contact, so that the second inclined surface has a relatively greater inclination than the tangential line of the ball member. can be formed

In addition, the lower outer surface of the valve sleeve and the upper inner surface of the seat may be coupled to each other by press-fitting.

In addition, an upper circumference of the coupling region of the valve sleeve that is press-fitted with the upper inner surface of the seat may have a locking jaw protruding from the upper surface of the seat when the press-fitting is completed.

In addition, the discharge ports formed in the valve sleeve may be spaced at regular intervals along the circumferential direction of the valve sleeve and provided in plural to be concentrically arranged.

In addition, the bottom surface of the sheet may be installed to be spaced apart from the seating surface formed in the discharge passage by a predetermined distance.

And, the bottom surface of the sheet may be installed so as to be seated in contact with a seating surface formed in the discharge passage.

As described above, the outlet check valve for the high pressure pump according to the present invention can prevent seat deformation due to temperature and assembly through a change in the seat material, and the sealing point of the assembly part is changed from 3 points to 2 through a change in the structure of the assembly part. It has the effect of supplementing the structural problem by reducing it to a point.

In addition, there is an effect of improving restart performance after vehicle driving by improving the airtightness of the outlet check valve by changing from a single sealing structure by press-fitting to a double-sealing structure of press-fitting and metal.

1 is a plan view showing the structure of an outlet check valve for a high pressure pump according to the present invention;
2 is a cross-sectional view taken along the line 'II-II' of the outlet check valve for the high pressure pump of FIG. 1;
3 is a front cross-sectional view taken along line 'III-III' of the outlet check valve for the high pressure pump of FIG. 1;
4 is a plan view showing the structure of an embodiment in which an outlet check valve for a high pressure pump according to the present invention is installed in a discharge passage;
5 is a plan view showing the structure of another embodiment in which an outlet check valve for a high pressure pump according to the present invention is installed in a discharge passage.

Hereinafter, an outlet check valve for a high pressure pump according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a plan view showing the structure of an outlet check valve for a high pressure pump according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view taken along line 'II-II' of the outlet check valve for a high pressure pump in FIG. 1, 3 is a front cross-sectional view of the outlet check valve for the high pressure pump of FIG. 1 taken along the line 'III-III', and FIG. 4 shows the structure of an embodiment in which the outlet check valve for the high pressure pump according to the present invention is installed in the discharge passage. 5 is a plan view showing the structure of another embodiment in which an outlet check valve for a high pressure pump according to the present invention is installed in a discharge passage.

As shown in these drawings, the outlet check valve for the high-pressure pump according to an embodiment of the present invention is inserted into the discharge passage 1 and the inlet 110 is opened so that fuel flows in, and the width along the direction of the plate surface a sheet 100 provided with an inner space 120 formed to be different; It is inserted into the inner space 120 of the seat 100 to selectively open and close the inlet 110, and both sides of the outer surface are guided by the wall surface of the inner space 120 formed with a narrow width to slide and move in a spherical shape. A ball member 200 formed and in line contact with the circumference of the inlet 110; a valve sleeve 300 inserted into and fastened to the discharge passage 1, formed with a discharge port 310 to discharge fuel, and with a stopper 320 bent at an upper end; Disposed between the ball member 200 and the stopper 320 formed on the valve sleeve 300, the ball member 200 elastically supports the inlet port 110 in a direction of closing, and the discharge passage 1 An elastic spring 400 that is elastically compressed when the pressure of the fuel discharged to ) is more than a set value so that the inlet 110 is opened; consists of including

The sheet 100 is inserted into the discharge passage 1, has an inlet 110 formed at one side so that fuel flows in, and is a member provided with an internal space 120 formed to have a different width along the plate surface direction.

The inner space 120 formed inside the sheet 100 has different widths along the direction of the plate surface of the sheet 100. For example, the inner space 120 is formed to have an elliptical cross section or a rectangular shape. It can be formed to have a cross section of.

That is, it is preferable not to be formed in a cylindrical shape having the same width in any direction along the plate surface direction, but to be formed in an elliptical column shape or a rectangular column shape.

This is so that when the ball member 200 is accommodated in the inner space 120 and moves along the height direction of the inner space 120, the inner wall surface of one side of the inner space 120 can guide the movement of the ball member 200. This is to increase the airtight effect of the inner space 120 by stably performing the sliding movement of the ball member 200.

The inner space 120 is installed on the entire seat along the height direction of the seat 100, except for a portion of the top of the seat 100 to which the valve sleeve 300 is press-fitted and coupled, so that the ball member 200 moves up and down. It is effective to make the movement stable.

The upper part of the outer surface of the sheet 100 is provided with a protrusion 130 for press-fitting that protrudes to the outside so that the sheet 100 is fixed to the discharge passage 1 by press-fitting. It is provided on the first inclined surface 131 formed to be inclined upward so that the width gradually increases as the width increases.

A first inclined surface 131 is formed on the lower surface of the press-fit protrusion 130 protruding from the outer surface of the seat 100, so that the seat 100 is removed when the outlet check valve for the high pressure pump is initially installed in the discharge passage 1. By sliding along the circumferential surface of the inlet side of the discharge passage 1 by the first inclined surface 131, the initial insertion operation can be easily performed.

In addition, a metal sealing 132 is installed around the first inclined surface 131 of the outer surface of the seat 100 to ensure a tight seal between the outlet check valve for the high pressure pump and the discharge passage 1, thereby preventing leakage of fuel There are effects that can be done.

A second inclined surface 140 is formed on the upper surface of the inlet 110 formed on the seat 100, and the second inclined surface 140 is a ball member so that the circumference of the inlet 110 and the ball member 200 can be in line contact. It is preferably formed to have a relatively greater slope than the tangent of (200).

The second inclined surface 140 formed on the upper surface of the inlet 110 has a relatively greater inclination than the tangential line of the ball member 200 so that a line contact is made between them, thereby preventing leakage of fuel more effectively. .

If the second inclined surface 140 is formed with the same slope as the tangent of the ball member 200, the ball member 200 comes into surface contact with the upper surface of the inlet 110. If the surface of the 200 and the upper surface of the inlet 110 are not smooth, there is a problem that fuel may leak due to fine irregularities formed on the surface.

It is effective to improve the durability of the sheet 100 by preventing deformation of the sheet 100 due to temperature and assembly by forming the sheet 100 from a conventional PAI or PEEK material to a SUS material.

The ball member 200 is formed in a spherical shape and is inserted into the inner space 120 of the seat 100 to selectively open and close the inlet 110, and is guided by the wall surface of the inner space 120 formed with narrow widths on both sides of the outer surface. As it slides, it is a member that is in line contact with the circumference of the inlet 110.

The ball member 200 is elastically supported by the elastic spring 400 and is separated from the inlet 110 so that the inlet 110 is opened when the pressure of the fuel discharged to the discharge passage 1 exceeds a set value.

The valve sleeve 300 is a member inserted into and fastened to the discharge passage 1, formed with a discharge port 310 so that fuel is discharged, and with a stopper 320 bent at the top. They are spaced apart at regular intervals along the direction and are provided in plurality and are arranged on concentric circles.

The lower outer surface of the valve sleeve 300 and the upper inner surface of the seat 100 are mutually coupled by press fitting, and the upper circumference of the coupling area of the valve sleeve 300 press-fitted with the upper inner surface of the seat 100 Upon completion of the press-in, a locking jaw 150 seated on the upper surface of the sheet 100 protrudes.

The elastic spring 400 is disposed between the ball member 200 and the stopper 320 formed on the valve sleeve 300 to elastically support the ball member 200 in the direction of closing the inlet 110, and discharge passage 1 ) When the pressure of the fuel discharged to a set value or more is elastically compressed, it serves to open the inlet 110.

As shown in FIG. 4, the bottom surface of the sheet 100 may be installed to be spaced apart from the seating surface formed in the discharge passage 1 by a certain distance, and as shown in FIG. 5, the bottom surface of the sheet 100 The secondary surface may be installed to be seated so as to come into contact with a seating surface formed in the discharge passage 1 .

When the bottom surface of the sheet 100 is installed to be spaced apart from the seating surface formed on the discharge passage 1 by a certain distance, a separation space is provided between the bottom surface of the sheet 100 and the seating surface formed on the discharge passage 1, so that the ball There is an effect of ensuring that the state in which the outlet check valve for the high pressure pump is installed in the discharge passage 1 is firmly maintained by buffering so that the impact caused by the movement of the member 200 is not transferred to the discharge passage 1 side.

When the bottom surface of the sheet 100 is installed so as to come into contact with the seating surface formed on the discharge passage 1, no separation space is formed between the bottom surface of the sheet 100 and the seating surface formed on the discharge passage 1. Therefore, there is an effect of increasing the inflow efficiency of the fuel by allowing the fuel to directly flow into the inner space of the seat 100 through the inlet 110.

A description of the operation of the outlet check valve for the high-pressure pump according to an embodiment of the present invention having such a configuration is as follows.

First, when the pressure of the fuel discharged into the discharge passage 1 is less than the set value, the elastic force of the elastic spring 400 is greater than the pressure of the fuel, so the elastic spring 400 moves the ball member 200 toward the inlet 110. Since the ball member 200 maintains a state of line contact with the inlet 110 by elastic support and the inlet 110 is closed, fuel is not supplied through the outlet check valve for the high-pressure pump, and the fuel inflow is completed. Since it does not leak through the inlet 110, the airtightness is achieved closely.

Conversely, when the pressure of the fuel discharged into the discharge passage 1 exceeds the set value, the elastic force of the elastic spring 400 for elastically supporting the ball member 200 is smaller than the pressure of the fuel, so that the ball member 200 moves up and down while moving up and down. The elastic spring 400 is compressed so that the inlet 110 is opened, and the fuel is smoothly supplied through the opened inlet 110 so that the high pressure pump operates.

The outlet check valve for a high pressure pump according to an embodiment of the present invention having the configuration as described above can prevent seat deformation due to temperature and assembly through a change in the seat material, and sealing the assembly part through a change in the structure of the assembly part By reducing the number of points from 3 points to 2 points, structural problems are complemented, and by changing from a single sealing structure by press-fitting to a double-sealing structure of press-fitting and metal, the airtightness of the outlet check valve can be improved to improve restart performance after driving the vehicle. there will be

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, as noted, the scope of the present invention should not be construed as being limited to the above embodiments, and the scope of the present invention described above It will be said that the technical idea and the technical idea together with the root are all included in the scope of the present invention.

1: discharge oil 100: sheet
110: inlet 120: inner space
130: protrusion for press-fitting 131: first inclined surface
140: second slope 150: locking jaw
200: ball member 300: valve sleeve
310: discharge port 320: stopper
400: elastic spring

Claims (9)

a seat 100 inserted into and fastened to the discharge passage 1, having an inlet 110 open so that fuel flows in, and having an inner space 120 formed to have a different width along the plate surface direction;
It is inserted into the inner space 120 of the seat 100 to selectively open and close the inlet 110, and both sides of the outer surface are guided by the wall surface of the inner space 120 formed with a narrow width to slide and move in a spherical shape. A ball member 200 formed and in line contact with the circumference of the inlet 110;
a valve sleeve 300 inserted into and fastened to the discharge passage 1, formed with a discharge port 310 to discharge fuel, and with a stopper 320 bent at an upper end;
Disposed between the ball member 200 and the stopper 320 formed on the valve sleeve 300, the ball member 200 elastically supports the inlet port 110 in a direction of closing, and the discharge passage 1 An elastic spring 400 that is elastically compressed when the pressure of the fuel discharged to ) is more than a set value so that the inlet 110 is opened;
An outlet check valve for a high-pressure pump, characterized in that it comprises. According to claim 1,
The upper part of the outer surface of the seat 100 is provided with a protruding protrusion 130 for press-fitting so that the seat 100 is fixed to the discharge passage 1 by press-fitting, characterized in that the outlet check valve for the high-pressure pump . According to claim 2,
The lower surface of the press-fitting protrusion 130 is provided on a first inclined surface 131 formed to be inclined upward so that the width gradually increases toward the outside, and a metal sealing 132 is installed around the first inclined surface 131 Outlet check valve for high pressure pump. According to claim 3,
A second inclined surface 140 is formed on the upper surface of the inlet 110 formed on the seat 100, so that the circumference of the inlet 110 and the ball member 200 can come into line contact with the second inclined surface ( 140) is an outlet check valve for a high pressure pump, characterized in that formed to have a relatively greater slope than the tangential line of the ball member (200). According to claim 1,
An outlet check valve for a high-pressure pump, characterized in that the lower outer surface of the valve sleeve 300 and the upper inner surface of the seat 100 are mutually coupled by press-fitting. According to claim 5,
High pressure characterized in that the upper circumference of the coupling area of the valve sleeve 300 press-fitted with the upper inner surface of the seat 100 has a protruding jaw 150 seated on the upper surface of the seat 100 when press-fitting is completed. Outlet check valve for pump. According to any one of claims 1 to 6,
The outlet 310 formed in the valve sleeve 300 is spaced apart at a predetermined interval along the circumferential direction of the valve sleeve 300 and is provided in plurality and arranged concentrically. Outlet check valve for high pressure pump. According to claim 7,
The outlet check valve for the high-pressure pump, characterized in that the bottom surface of the seat 100 is installed to be spaced apart from the seating surface formed in the discharge passage (1) at a predetermined interval. According to claim 7,
An outlet check valve for a high-pressure pump, characterized in that the bottom surface of the seat 100 is installed so as to be seated in contact with the seating surface formed in the discharge passage (1).

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