KR20210080877A - Fitting member and fitting structure having the same - Google Patents

Abstract

The present invention provides a fitting member and a fitting structure having the same. The fitting member, in the fitting member fastened to a fitting target member by a fastening member, comprises: a fitting body having an insertion groove formed on the sealing surface processed on the fitting target member and the coupling surface facing each other; and an airtight mounting unit which is installed to be inserted into an insertion groove of the fitting body, to which an airtight member for airtightening between the fitting member and the fitting target member is mounted, and which provides an elastic force to the airtight member so that the airtight member is in close contact with the sealing surface of the fitting target member with a surface pressure equal to or greater than a predetermined range. An object of the present invention is to provide the fitting member which allows the airtight member to be in close contact with the entire sealing surface of a member to be fitted, and a fitting structure having the same.

Description

A fitting member and a fitting structure having the same {FITTING MEMBER AND FITTING STRUCTURE HAVING THE SAME}

The present invention relates to a fitting member and a fitting structure having the same, and more particularly, to a fitting member for minimizing external leakage and a fitting structure having the same.

In general, a fitting fastening method is used to prevent leakage of pipes when pipes are installed to transport fluids such as liquid or gas. For example, such a fitting fastening method may be applied to a portion in which the fitting portion of the solenoid valve is connected to the pipe, or a portion in which the fitting portion and the pipe of the check valve are connected. In the fitting fastening method, an airtight member such as an O-ring is used between the fitting bodies to prevent fluid leakage.

However, due to the nature of the material, such as an airtight member such as an O-ring, it may be deformed, such as contracted according to changes in pressure and temperature, and may cause leakage. Also, even if the fitting is tightened with a normal torque, the fitting body is tightened at an angle, and leakage may occur between the fitting body.

In particular, when the fitting member is used in a fuel cell vehicle, there is a problem in that the O-ring is deformed according to changes in temperature and pressure during rapid charging, so that external leakage is highly likely.

1 to 3 show a conventional fitting fastening structure.

In the conventional fitting fastening structure, a fitting member 20 having a first flow path 21 formed therein and a fitting member 50 having a second flow path 52 formed therein are fitted with a fastening member 30 such as a nut. is the structure The fitting member 20 may have a sealing surface 23 processed in a direction toward the fitting member 50 . The fitting member 50 includes a body 51 on which the second flow path 52 is formed, and a coupling surface 53 that is a surface of the body 51 facing the fitting target member 20 . An O-ring mounting groove 54 in which the airtight member 40 such as an O-ring is mounted may be formed in the coupling surface 53 . The O-ring mounting groove 54 may be formed in a ring shape centered on the second flow path 52 . The airtight member 40 is interposed between the coupling surface 53 and the sealing surface 23 to prevent leakage of fluid passing through the first flow path 21 and the second flow path 52 . A screw thread 55 may be formed on the outer circumferential surface of the fitting member 50 to be screwed with the screw portion 31 of the inner circumferential surface of the fastening member 30 .

Figure 1 shows a state before the fastening of the fitting member 50 and the fitting target member 20, Figure 2 shows a state in which the fitting member 50 and the fitting target member 20 are normally fitted and fastened, 3 shows a state in which the fitting member 50 and the fitting target member 20 are abnormally fitted.

As shown in FIG. 3 , the airtight member 40 such as an O-ring may be deformed, such as contracted according to a change in pressure and temperature, due to the characteristics of the material, and a leak may occur. Also, even if the fitting is tightened with a normal torque, the fitting body is tightened at an angle, and leakage may occur between the fitting body. In particular, when the fitting fastening structure is applied to a fuel cell vehicle, there is a problem in that the O-ring is deformed according to changes in temperature and pressure during rapid charging, resulting in a high possibility of external leakage.

The present invention has been devised to solve the above problems, and a fitting member and a fitting structure having the same for elastically pressing the airtight member in a direction toward the fitting target member so that the airtight member is in close contact with the entire sealing surface of the fitting target member aims to provide

In addition, according to the present invention, even when the airtight member is contracted or the fitting member is tightened at an angle, the airtight member is evenly adhered to the entire sealing surface with the same surface pressure by the airtight member mounting portion, so that the fastening portion of the fitting member and the fitting member An object of the present invention is to provide a fitting member for minimizing leakage of fluid to the outside and a fitting structure having the same.

In order to achieve the above object, a fitting member according to the present invention is a fitting member that is fastened to a fitting member by a fastening member, wherein an insertion groove is formed in a sealing surface machined on the fitting member and a coupling surface facing each other. A fitting body and an airtight member installed to be inserted into the insertion groove of the fitting body, the airtight member sealing between the fitting member and the fitting target member is mounted, wherein the airtight member is disposed on the sealing surface of the fitting target member within a predetermined range or more It includes an airtight member mounting portion for providing an elastic pressing force to the airtight member so as to be in close contact with the surface pressure.

A fitting structure having a fitting member according to the present invention is a fitting member having a fitting target member having a first flow path and having a processed sealing surface, and a second flow path fastened to the fitting target member and communicating with the first flow path. and a fastening member for fastening the fitting member and the fitting member, and an airtight member mounted between the fitting target member and the fitting member to minimize leakage of fluid flowing through the first flow path and the second flow path. and the fitting member is installed to be inserted into the insertion groove of the fitting body, the fitting body including a fitting surface facing each other and having an insertion groove formed thereon, the sealing surface of the fitting target member is mounted, the airtight member is mounted, and an airtight member mounting portion provided to press the airtight member in the direction of the fitting target member so that the airtight member is in close contact with the sealing surface of the fitting target member with a surface pressure greater than or equal to a predetermined range.

According to the present invention, the airtight member mounting portion is provided to be able to elastically press the airtight member in a direction toward the fitting target member in which the airtight member is mounted, so that the airtight member can be evenly adhered to the entire sealing surface of the fitting target member.

Therefore, according to the present invention, even when the airtight member is contracted or the fitting member is obliquely fastened, the airtight member can be evenly adhered to the entire sealing surface with the same surface pressure by the airtight member mounting portion, so that the It is possible to minimize leakage of fluid from the fastening part to the outside.

1 is a view showing a state before fastening of a conventional fitting member and a fitting member.
2 is a view showing a state in which a conventional fitting member and a fitting target member are normally fitted with each other.
Figure 3 is a view showing a state in which the fitting member and the fitting target member are abnormally fastened according to the related art.
4 is a cross-sectional view showing a fitting member and a fitting structure according to the present invention.
5 is a cross-sectional view showing a fitting member and a fitting structure according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, the embodiments described below are suitable for understanding the technical characteristics of the present invention a fitting member and a fitting structure having the same. However, the present invention is not limited to the embodiments described below, or the technical features of the present invention are not limited by the described embodiments, and various modifications are possible within the technical scope of the present invention.

The fitting structure including the fitting member according to the present invention can be applied to both the use for separating the internal gas and the external gas, and in particular, can be used for the connection between each part and the pipe. For example, it may be applied to a part connected to a fitting part of a solenoid valve and a pipe, a part to which a fitting part of a check valve is connected to a pipe, and the like.

4 and 5, the fitting structure 10 including a fitting member according to an embodiment of the present invention includes a fitting target member 20, a fitting member 100, a fastening member 30, and an airtight member ( 40).

The fitting member 20 has a first flow path 21 and the sealing surface 23 is machined.

The fitting member 100 includes a second flow path 111 coupled to the fitting target member 20 and communicating with the first flow path 21 . The fitting member 100 may be coupled to the fitting member 20 in a state in contact with the sealing surface 23 , and the fluid may pass through the first flow path 21 and the second flow path 111 . The fitting member 100 includes a sealing surface 23 and a coupling surface 113 provided to face each other and to be in close contact with each other.

The fastening member 30 fastens the fitting target member 20 and the fitting member 100 .

As in the illustrated embodiment, the fastening member 30 may be provided in the form of a nut, and by screwing the fitting target member 20 and a part of the fitting member 100 in an inserted state, the fitting target member 20 and The fitting member 100 may be connected. The fastening member 30 may have a threaded portion 31 for screwing with the fitting member 100 on an inner circumferential surface thereof. In addition, the step portion 32 may be provided at a portion where the fitting target member 20 is mounted so that the fitting target member 20 is mounted.

The airtight member 40 is mounted between the fitting target member 20 and the fitting member 100 to minimize leakage of fluid flowing through the first flow path 21 and the second flow path 111 .

The airtight member 40 may be an O-ring mounted between the sealing surface 23 of the fitting member 20 and the coupling surface 113 of the fitting member 100 , and the first flow path 21 . and the second flow path 111 in the circumferential direction. Since the airtight member 40 is in close contact with the sealing surface 23 and the coupling surface 113 , it is possible to prevent water leakage between the fitting member 100 and the fitting target member 20 . However, the airtight member 40 is not limited to the above-described O-ring, and various modifications are possible as long as it can pack between the fitting member 100 and the fitting target member 20 .

Here, after the fitting member 100 and the fitting target member 20 are fastened and assembled with a normal torque by the fastening member 30 , the airtight member 40 seals the space between the fitting member 100 and the fitting target member 20 . There may be problems that cannot be done. For example, when the fitting member 100 and the fitting target member 20 are assembled with normal torque, but the fitting target member 20 is assembled to be inclined due to external factors, or when the fitting is tightened, it is airtight due to a change in temperature or pressure When a part of the member 40 is deformed such as being contracted, the airtight member 40 may not be in close contact with the sealing surface 23 of the fitting member 20 , and thus external leakage may occur.

An object of the present invention is to provide an improved fitting member 100 and a fitting structure 10 including the same in order to solve this problem. Hereinafter, the fitting member 100 according to the present invention will be described in detail.

Referring to FIG. 4 , the fitting member 100 according to the present invention includes a fitting body 110 and an airtight member mounting part 130 installed therein.

In the fitting body 110 , an insertion groove 114 is formed in the sealing surface 23 processed on the fitting target member 20 and the engaging surface 113 facing each other.

Specifically, in the fitting body 110 , a second flow path 111 communicating with the first flow path 21 passes through the center, and a screw thread 112 may be formed on an outer circumferential surface in contact with the fastening member 30 . By screwing the fitting body 110 and the fastening member 30 in a state in which the fitting target member 20 is inserted into the fastening member 30, the fitting target member 20 and the fitting member 100 are to be fastened. can

The airtight member mounting unit 130 is installed to be inserted into the insertion groove 114 of the fitting body 110 , and the airtight member 40 for airtightness between the fitting member 100 and the fitting target member 20 is mounted. At this time, an elastic pressing force is provided to the airtight member 40 so that the airtight member 40 is in close contact with the sealing surface 23 of the fitting target member 20 with a predetermined or more surface pressure.

Specifically, the airtight member mounting unit 130 is provided to be able to elastically press the airtight member 40 in a direction toward the fitting target member 20 while the airtight member 40 is mounted, so that the airtight member 40 is the fitting target member. It can be made to be in close contact with the entire sealing surface 23 of (20).

Therefore, in the present invention, even when the airtight member 40 is contracted or when the fitting target member 20 is obliquely fastened (see FIG. 3 ), the airtight member 40 is the sealing surface 23 by the airtight member mounting unit 130 . ) can be evenly adhered to the entire surface with equal surface pressure, so that leakage of fluid to the outside can be minimized at the fastening portion of the fitting target member 20 and the fitting member 100 .

Specifically, the airtight member mounting unit 130 may vary the pressing force for pressing the airtight member 40 according to the temperature. For example, the airtight member mounting unit 130 at a temperature above a predetermined temperature range allows the airtight member 40 to simply be in close contact with the sealing surface 23, and at a temperature less than a predetermined temperature range, the airtight member 40 is attached to the sealing surface 23 ) can be elastically pressed in the direction toward the Accordingly, even when the airtight member 40 is contracted at a low temperature, the airtight member 40 may be in close contact with the sealing surface 23 by a predetermined or more surface pressure.

More specifically, the airtight member mounting unit 130 may include a mounting member 140 and an elastic pressure member 150 .

The mounting member 140 is inserted into the insertion groove 114 , and a mounting groove 141 in which at least a portion of the airtight member 40 is accommodated may be provided. For example, the mounting member 140 may be formed in a ring shape centered on the first flow path 21 , and may be provided to be press-fitted into the insertion groove 114 . A mounting groove 141 may be concavely formed on the surface of the mounting member 140 in the direction toward the fitting target member 20 , and a portion of the airtight member 40 may be fitted into the mounting groove 141 . Accordingly, the airtight member 40 may be stably fixed to the fitting body 110 .

The elastic pressing member 150 is mounted in the insertion groove 114, is provided in the opposite direction to the direction toward the airtight member 40 of the mounting member 140 toward the mounting member 140 towards the airtight member 40. It may be provided to elastically press in the direction.

That is, the insertion groove 114 may include a first part 115 adjacent to the coupling surface 113 and a second part 116 positioned in a direction opposite to the coupling surface 113 in the first part 115 . . The elastic pressing member 150 may be inserted into the second part 116 , and the mounting member 140 may be inserted into the first part 115 . Here, the sizes of the first part 115 and the second part 116 of the insertion groove 114 may be determined according to the sizes of the mounting member 140 and the elastic pressing member 150, and may be formed to be the same as or different from each other. have.

The elastic pressing member 150 may elastically press the mounting member 140 in a direction toward the fitting target member 20 from the inside of the mounting member 140 .

The mounting member 140 may have a thermal contraction rate higher than that of the fitting body 110 . In addition, the mounting member 140 may be provided to be press-fitted into the insertion groove 114 at a temperature above a predetermined temperature range, and to be contracted as the temperature decreases.

When the elastic pressing member 150 contracts the mounting member 140 below a predetermined temperature range, the mounting member 140 is attached to the sealing surface 23 of the fitting target member 20 so that the sealing member 40 is in close contact with the airtight member. It can be elastically pressed in the (40) direction.

Specifically, since the thermal contraction rate of the mounting member 140 is higher than that of the fitting body 110 , it is coupled to the insertion groove 114 of the fitting body 110 by force fitting over a predetermined temperature range, and is mounted when the temperature is lower than the predetermined temperature range. As the member 140 is contracted, it may be smaller than the size of the insertion groove 114 . For example, the predetermined temperature range may be room temperature, and the mounting member 140 may be contracted smaller than the insertion groove 114 at a temperature lower than room temperature, but is not limited thereto.

Accordingly, since the mounting member 140 is press-fitted into the insertion groove 114 above a predetermined temperature range, the mounting member 140 is not pushed by the pressing force of the elastic pressing member 150 . At this time, the airtight member 40 receives the minimum elastic pressing force by the elastic pressing member 150 .

On the other hand, below a predetermined temperature range, the mounting member 140 may be contracted to be smaller than the insertion groove 114 , and thereby the mounting member 140 is subjected to the fitting target member 20 by the elastic pressing force of the elastic pressing member 150 . ) can be moved in the At this time, the airtight member 40 is brought into close contact with the sealing surface 23 by receiving an elastic pressing force by the elastic pressing member 150 .

Therefore, even when the airtight member 40 is contracted below a predetermined temperature range, the airtight member 40 may be in close contact with the sealing surface 23 of the fitting target member 20 by receiving the elastic pressing force of the elastic pressing member 150 . ) may be in close contact with the sealing surface 23 while maintaining a surface pressure of a predetermined range or more. Due to this, airtightness is improved and external leakage can be prevented.

Meanwhile, FIG. 4 shows a first embodiment of the elastic pressing member 150 , and FIG. 5 shows a second embodiment of the elastic pressing member 150 . The elastic pressing member 150 is not limited to the embodiment shown in FIGS. 4 and 5 , and various modifications are possible as long as it can provide an elastic force to the airtight member 40 .

Referring to FIG. 4 , the elastic pressing member 150 may be provided as a polymer plate 151 including a polymer material having elasticity.

When the polymer plate 151 is pressed and compressed by the mounting member 140 while being inserted into the insertion groove 114 (the second part 116), the mounting member 140 is thermally contracted below a predetermined temperature range. It is possible to elastically press the mounting member 140 and the airtight member 40 in the direction of the fitting target member 20 by the elastic restoring force. The polymer plate 151 may accommodate the fluid 152 therein. When one side of the polymer plate 151 is pressed, the fluid 152 may be filled to transmit force to the opposite side. The fluid 152 may serve to maintain the shape of the O-ring and to allow the force of the O-ring to act uniformly even if it is deformed by the fastening pressure.

Referring to FIG. 5 , the elastic pressing member 150 may include a coil spring 153 elastically supporting the mounting member 140 .

When the coil spring 153 is pressed and compressed by the mounting member 140 in a state inserted into the insertion groove 114 (the second part 116), the mounting member 140 is thermally contracted below a predetermined temperature range. It is possible to elastically press the mounting member 140 and the airtight member 40 in the direction of the fitting target member 20 by the elastic restoring force.

The present invention configured as described above is provided so that the airtight member mounting portion can elastically press the airtight member in a direction toward the fitting target member in which the airtight member is mounted, so that the airtight member is evenly adhered to the entire sealing surface of the fitting target member. have.

Therefore, according to the present invention, even when the airtight member is contracted or the fitting member is obliquely fastened, the airtight member can be evenly adhered to the entire sealing surface with the same surface pressure by the airtight member mounting portion, so that the It is possible to minimize leakage of fluid from the fastening part to the outside.

As mentioned above, specific embodiments of the present invention have been described above, but the spirit and scope of the present invention are not limited to these specific embodiments, and those described in the claims by those of ordinary skill in the art to which the present invention pertains Various modifications and variations are possible without changing the gist of the present invention.

10: Fitting structure
20: fitting target member
21: 1st Euro
23: sealing surface
30: fastening member
31: threaded part
32: stepped portion
40: airtight member
50: fitting member
51: body
52: 2nd Euro
53: coupling surface
54: O-ring mounting groove
55: thread
100: fitting member
110: fitting body
111: 2nd Euro
112: thread
113: coupling surface
114: insertion groove
115: first part
116: second part
130: airtight member mounting part
140: mounting member
141: mounting groove
150: elastic pressure member
151: polymer plate
152: fluid
153: coil spring

Claims (9)

In the fitting member fastened to the fitting target member by the fastening member,
a fitting body having an insertion groove formed on a sealing surface processed on the fitting target member and a coupling surface facing each other; and
It is installed to be inserted into the insertion groove of the fitting body, and an airtight member for sealing the airtight between the fitting member and the fitting member is mounted, so that the airtight member is in close contact with the sealing surface of the fitting member with a surface pressure of a predetermined range or more. A fitting member comprising an airtight member mounting portion for providing an elastic pressing force to the airtight member. According to claim 1,
The fitting member is provided so that the pressure for pressing the airtight member is variable according to the temperature of the airtight member mounting portion. According to claim 1,
The airtight member mounting portion,
a mounting member inserted into the insertion groove and provided with a mounting groove in which at least a portion of the airtight member is accommodated; and
Doedoe mounted in the insertion groove, the fitting member comprising an elastic pressing member provided in the opposite direction of the direction toward the airtight member of the mounting member is provided to elastically press the mounting member in the direction toward the airtight member, . 4. The method of claim 3,
The fitting member, wherein the thermal contraction rate of the mounting member is higher than the thermal contraction rate of the fitting body. 4. The method of claim 3,
The mounting member is a fitting member provided to be press-fitted into the insertion groove at a temperature above a predetermined temperature range, and to be contracted as the temperature decreases. 6. The method of claim 5,
The elastic pressing member elastically presses the mounting member in a direction toward the airtight member so as to bring the airtight member into close contact with the sealing surface of the fitting target member when the mounting member contracts below a predetermined temperature range. absence. 4. The method of claim 3,
The elastic pressing member is a fitting member provided with a polymer plate containing a polymer material having elasticity. 4. The method of claim 3,
The elastic pressing member includes a coil spring elastically supporting the mounting member, a fitting member. a fitting target member having a first flow path and having a sealing surface;
a fitting member coupled to the fitting target member and having a second flow passage communicating with the first flow passage;
a fastening member for fastening the fitting member to the fitting member; and
and an airtight member mounted between the fitting target member and the fitting member to minimize leakage of fluid flowing through the first flow path and the second flow path;
The fitting member is
a fitting body including a coupling surface facing the sealing surface of the fitting target member and having an insertion groove formed thereon; and
It is installed to be inserted into the insertion groove of the fitting body, the airtight member is mounted, and the airtight member is pressed in the direction of the fitting target member so that the airtight member is in close contact with the sealing surface of the fitting target member with a surface pressure of a predetermined range or more. A fitting structure having a fitting member, including an airtight member mounting portion provided to do so.

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