KR20220095759A - Cross-sectional structure of head cover gasket to reduce repulsion - Google Patents

Abstract

The present invention relates to a cross-sectional structure of a head cover gasket for reducing repulsion. Provided is a cross-sectional structure of a head cover gasket for reducing repulsion, wherein excessive surface pressure and repulsion generated during the combination of a head cover gasket are reduced by forming the sealing cross-sectional structure of a main body of the gasket in a variable adhering structure, which expands symmetrically in a sliding structure in a lateral direction, a sealing function is improved relatively and accordingly the operation of combining the head cover gasket is also facilitated, thereby extremely increasing airtightness, watertightness, assembly and handling. Therefore, to achieve the purpose, the specific means of the present invention comprises: a head cover having a groove formed thereon; and a main body of the gasket, wherein the main body of the gasket has a compressing and fixing groove formed on an upper end surface and has a pair of elastic adhering pieces, which are divided in a laterally symmetric cutting structure, formed on a lower surface. The pair of elastic adhering pieces formed on the main body of the gasket are slid and expanded in a lateral direction, thereby applying a variable sealing force to the combination surface of an object to be sealed and the head cover to achieve the purpose.

Description

Cross-sectional structure of head cover gasket to reduce repulsion

The present invention relates to a head cover gasket, and more particularly, in a head cover gasket used as a sealing means for various power trains such as a power transmission mechanism for automobiles including an engine, for example, a transmission and a torque converter, the head cover gasket The sealing cross-sectional structure is formed into a variable adhesion structure that expands into a sliding structure to facilitate the bonding operation of the head cover gasket. The (sealing) function relates to the cross-sectional structure of the head cover gasket for reducing the repulsive force to be increased.

The rubber gasket used to seal the engine head cover, including various automotive powertrains, is installed so as not to be separated from the head cover until the final engine assembly to maintain the airtight state between the head cover and the cylinder head.

This is because, when the gasket is detached from the head cover and assembled, the seal between the head and the head cover cannot be maintained, which causes oil leakage.

In general, as a measure to prevent the gasket from being separated from the head cover, a groove is formed along the longitudinal direction of the bonding surface of the head cover, and is vertically inserted at regular intervals along the length of the bonding surface of the gasket to be inserted into the groove. There is something that has formed a protrusion.

However, the groove of the head cover where the gasket is installed has a draft of more than 1 degree at both ends, and due to the shape of the gradient, the upper end of the protrusion receives more compression than the lower end, and the rubber moves toward the lower end, which is relatively less compressed. try to move

Due to this, a spring back phenomenon occurs in the rubber, and there is a possibility that the gasket may be separated from the head cover.

In addition, as the width of the protrusion inserted into the groove becomes larger than the width of the groove to improve separation prevention, it becomes more difficult to assemble the gasket to the head cover. have..

Another example of the conventional head cover gasket is a gasket having a cross-sectional configuration taking a rectangular groove shape along the longitudinal direction of the head cover bonding surface, and having a cross-sectional configuration to take the shape of a pear-shaped column so as to be inserted into the groove.

However, since the gasket having a cross-sectional configuration in the shape of a pear-shaped column has a high volume due to its shape and structural characteristics, when the head cover to which the gasket is coupled is sealed to the cylinder head, excessive surface pressure and repulsive force are generated, and the head cover There is a problem that makes it difficult to combine the gasket.

In addition, the gasket having a conventional cross-sectional configuration in the shape of a baeheul-rim column has a problem of causing the gasket to collapse due to excessive surface pressure and coupling repulsion force and lowering the sealing (sealing) performance.

Republic of Korea Patent Registration No. 1345352 (Registered on December 19, 2013) Korean Patent Registration No. 1667763 (Registered on October 13, 2016)

The present invention was devised to solve the general functional and structural problems of the conventional head cover gasket, and an object of the present invention is to provide a head cover gasket used as a sealing means for various vehicle power transmission mechanisms including an engine, the head cover The sealing means constituting the gasket, for example, the sealing cross-sectional structure of the gasket body, is formed into a variable adhesion structure that symmetrically expands in a sliding structure toward the left/right direction, thereby reducing excessive surface pressure and repulsive force generated when the head cover gasket is coupled. , Relatively improving the sealing (sealing) function, thereby facilitating the bonding operation of the head cover gasket, to greatly increase the airtightness, watertightness, and assembly and handling of the head cover gasket to reduce the repulsive force To provide a cross-sectional structure.

As a specific means of the cross-sectional structure of the head cover gasket for reducing repulsive force according to the present invention for achieving the above object, it is formed in a configuration including a head cover having a groove and a gasket body inserted and coupled to the groove of the head cover. but;

The gasket body has a cross-sectional structure in the shape of a baeheulrim column and forms a compression fixing groove on its upper surface;

further extending and forming a pair of elastic adhesive pieces divided into left/right symmetrical cutouts on the lower surface of the gasket body;

A pair of elastic adhesion pieces formed of the gasket body expand symmetrically in a sliding structure toward the left/right direction, and a variable sealing force can be applied to the coupling surface between the sealing object and the head cover.

As described above, the cross-sectional structure of the head cover gasket for reducing repulsive force according to the present invention is a variable adhesion structure that symmetrically expands the sealing means constituting the head cover gasket, for example, the sealing cross-sectional structure of the gasket body in a sliding structure toward the left/right direction. to reduce the excessive surface pressure and repulsive force generated when the head cover gasket is coupled, and relatively improve the sealing (sealing) function, thereby making it possible to easily perform the bonding operation of the head cover gasket, which , it provides very useful expected effects, such as increasing assembly and handling properties as well as hermetic bonding properties.

1 is a view showing a main part coupling state showing a cross-sectional structure of a head cover gasket for reducing repulsive force according to the present invention;
Figure 2 is an operational state diagram of the cross-sectional structure of the head cover gasket for reducing the repulsive force according to the present invention;
3 is a view of this embodiment of the cross-sectional structure of the head cover gasket for reducing the repulsive force according to the present invention;
Figure 4 is a state diagram of this embodiment of the cross-sectional structure of the head cover gasket for reducing the repulsive force according to the present invention

The following detailed description is provided to provide a comprehensive understanding of the methods, apparatus, and/or systems described herein. However, this is only an example, and the present invention is not limited thereto.

In describing the embodiments of the present invention, if it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification. The terminology used in the detailed description is for the purpose of describing embodiments of the present invention only, and should in no way be limiting.

Unless explicitly used otherwise, expressions in the singular include the meaning of the plural. In this description, expressions such as “comprising” or “comprising” are intended to indicate certain features, numbers, steps, operations, elements, some or a combination thereof, and one or more other than those described. It should not be construed to exclude the presence or possibility of other features, numbers, steps, acts, elements, or any part or combination thereof.

Hereinafter, the configuration of a preferred embodiment of the cross-sectional structure of the head cover gasket for reducing the repulsive force according to the present invention will be described in detail based on the accompanying drawings.

FIG. 1 is a state diagram showing a cross-sectional structure of a head cover gasket for reducing repulsive force according to the present invention, and FIG. 2 is a diagram showing an operational state diagram of a cross-sectional structure of a head cover gasket for reducing repulsive force according to the present invention.

Briefly looking at the cross-sectional structure of the head cover gasket for reducing repulsive force according to the present invention with reference to the accompanying drawings, it is attached to and detached from the head cover 1 coupled to the sealing object 100 and the head cover 1 . Consists of a gasket body (2) that engages.

Here, first, the sealing object 100 means various power trains such as a power transmission mechanism for a vehicle including an engine, for example, a transmission requiring oil leakage prevention, a torque converter, etc., which is sealed only by the present invention. It is only a known device component to be processed, therefore, a detailed description thereof will be omitted.

On the other hand, the head cover 1 is coupled to the above-described sealing object 100, for example, in various power trains including an engine, in a form in connection with the gasket body 2 to be described later at a component component where oil leakage is a concern. And as a means for imparting sealing force, as shown in FIG. 1 , the head cover 1 has a groove 11 on the outer periphery of the close contact surface coupled with the sealing object 100, for example, having a predetermined depth. It is preferable to form a groove having a rectangular cross-sectional structure.

In addition, the gasket body 2 is molded from a resilient rubber material, etc., and is inserted into the groove 11 in the above-described head cover 1, so that the sealing object 100 and the head cover 1 are coupled. As a means of imparting a firm sealing force to the contact surface, as shown in FIG. 1 , the gasket body 2 has a cross-sectional structure in the shape of a pear-shaped column, for example, the diameter of the middle part is thick and goes in the upper/lower direction. It is formed to take a structure in which the diameter is reduced, and an arc-shaped compression fixing groove 21 having a predetermined depth is formed in the center of the upper surface of the gasket body 2 having such a formed structure, and the gasket body 2 ) It is preferable to further extend and form a pair of elastic adhesive pieces 22 cut and divided in a left/right symmetrical structure on the lower surface as shown in FIG. 1 .

At this time, the gasket body 2, as shown in FIG. 1 in the cut-out portion of the pair of elastic adhesive pieces 22 formed in a left/right symmetrical division structure, spaced apart a pair of elastic adhesive pieces 22 at a predetermined interval. For a triangular spatial configuration, for example, the extension guide 23 may be further formed.

In addition, as shown in FIG. 1, the expansion guide 23 formed to separate the pair of elastic adhesion pieces 22 is located at the vertex of the upper central part of the inner surface of the space taking a triangular shape. A breakage prevention surface 231 may be further formed.

Therefore, in the cross-sectional structure of the head cover gasket for reducing repulsive force, as described above, the gasket body 2 is inserted and coupled to the groove 11 of the head cover 1, and the gasket body 2 is The combined head cover (1) is used as a function of preventing oil from leaking from the sealing object (100) by coupling the sealing object (100) concerned about oil leakage.

At this time, as described above, when the head cover 1 is closely coupled to the sealing object 100 , the pair of elastic adhesive pieces 22 formed of the gasket body 2 are left/right as shown in FIG. 2 . It expands symmetrically in a sliding structure toward the direction and performs an action characteristic of giving a variable sealing force to the coupling surface of the sealing object 100 and the head cover 1

In addition, in the symmetrical expansion of the pair of elastic adhesion pieces 22 in a sliding structure toward the left/right direction, the expansion guide part 23 made of a triangular spatial configuration is the pair of elastic adhesion pieces 22 . Inducing it to expand naturally, it functions to offset the surface pressure and coupling repulsion applied to the gasket body 2, and, in addition, the breakage prevention surface 231 formed of the expansion guide 23 is a pair of elastic adhesive pieces (22) It functions to evenly distribute the stress generated in the process of sliding and expanding, and to prevent the pair of elastic adhesive pieces 22 from being cut or damaged by cutting.

3 is a view showing a cross-sectional structure of a head cover gasket for reducing repulsive force according to the present invention, and FIG. 4 is a diagram showing the working state of this embodiment of a cross-sectional structure of a head cover gasket for reducing repulsive force according to the present invention.

In the present invention as this embodiment, in the configuration of the above-described embodiment, the elastic adhesion piece 22 formed of the gasket body 2, for example, a pair of elastic adhesion pieces formed in a left/right symmetric division structure as shown in FIG. 3 . It is preferable to further protrude the close contact auxiliary protrusions 221 integrally on the inner surface of the piece 22 to face each other.

At this time, the close contact auxiliary protrusion 221 configured in this embodiment may be selectively variably formed in a number of a plurality or more.

Therefore, in the present invention as this embodiment as described above, when the head cover 1 is closely coupled to the sealing object 100 as in one embodiment, a pair of elastic adhesion pieces 22 formed of the gasket body 2 As shown in FIG. 4, it expands symmetrically in a sliding structure toward the left/right direction and gives a variable sealing force to the coupling surface of the sealing object 100 and the head cover 1, in addition to the close contact auxiliary protrusion 221 The function of increasing the sealing (sealing) function of the gasket body 2 is performed by giving the function of increasing the surface pressure by the

1: head cover 2: gasket body
11: grooves 21: compression fixing groove
22: elastic adhesion piece 23: expansion guide part
221: close contact auxiliary projection 231: damage prevention surface
100: sealing object

Claims (4)

A head cover (1) having a groove (11) formed on the outer periphery of the close contact surface coupled to the sealing object (100), and a gasket body (2) inserted and coupled into the groove (2) of the head cover (1) ;
The gasket body (2) has a cross-sectional structure that takes the shape of a pear-shaped column, and forms a pressing fixing groove (21) in the center of the upper surface;
further extending and forming a pair of elastic adhesion pieces 22 cut and divided in a left/right symmetrical structure on the lower surface of the gasket body 2;
A pair of elastic adhesion pieces 22 formed of the gasket body 2 expand symmetrically in a sliding structure toward the left/right direction, and apply a variable sealing force to the coupling surface of the sealing object 100 and the head cover 1 The cross-sectional structure of the head cover gasket for reducing repulsive force.
The method of claim 1 ;
The gasket body (2) is an extension guide part (23) in a triangular space configuration that separates the pair of elastic adhesive pieces (22) apart from the cutout portions of the pair of elastic adhesive pieces (22) formed in a left/right symmetrical division structure. Cross-sectional structure of the head cover gasket for reducing repulsive force, characterized in that it further forms. 3. The method of claim 2;
The expansion guide part 23 is formed with a breakage preventing surface 231 of a rounding bending structure that distributes the stress generated during the sliding expansion of the pair of elastic adhesive pieces 22 at the upper central vertex portion of the inner upper center of the space taking a triangular shape. The cross-sectional structure of the head cover gasket for reducing power generation.
The method of claim 1 ;
The gasket body 2 is a head cover gasket for reducing power, characterized in that the adhesion auxiliary protrusion 221 is integrally formed on the inner surface of the pair of elastic adhesion pieces 22 formed in a left/right symmetrical division structure. cross-sectional structure.

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