KR101884711B1 - Ball joint - Google Patents

Abstract

A ball joint according to the present invention includes: a ball stud having a spherical ball and a stud extending from the ball; A housing part for supporting the ball stud; An adjusting screw screwed into the housing part; And an elastic member inserted between the ball stud and the adjusting screw to provide a pressing force to the ball stud.

Description

Ball joint

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ball joint, and more particularly, to a ball joint capable of adjusting the fixability of a ball stud using an adjusting screw and an elastic member.

Generally, a ball joint is a connecting mechanical element that is free to rotate, and is used as a connecting member between an indoor / outdoor lighting device that performs relatively rotating motion, and a component that fixes an electronic device such as CCTV and adjusts a rotation angle.

The conventional ball joint has a problem that it is difficult to secure a heavy structure with a weak fixing property in fixing the ball stud because there is no additional fixing means.

In addition, it is inconvenient to adjust the angle after installing the structure because it is necessary to move the ball stud by loosening the screw in order to fix the ball stud with fixing means such as screws after adjusting the angle of the structure to be installed, .

Korean Patent Registration No. 10-0901556

The present invention provides a ball joint capable of adjusting the fixability of the ball stud.

A ball joint according to an embodiment of the present invention includes: a ball stud having a spherical ball and a stud extending from the ball; A housing part for supporting the ball stud; An adjusting screw screwed into the housing part; And an elastic member inserted between the ball stud and the adjusting screw to provide a pressing force to the ball stud.

The housing portion may have a first housing and a second housing integrally formed therein, and the cross-sectional area of the second housing may be larger than the cross-sectional area of the first housing.

The housing part may include: a first opening part in which a part of the housing part is opened; And a second opening portion in which the other portion of the housing portion is opposed to the first opening portion.

The cross-sectional area of the second opening may be larger than the cross-sectional area of the first opening.

Wherein the housing portion includes a receiving portion into which the ball stud, the elastic member, and the adjusting screw are inserted and received through the second opening portion, wherein the adjusting screw is screwed to a screw portion formed on a wall surface of the receiving portion, May be greater than the diameter of the ball.

The housing portion may further include an enlarged opening portion that extends partly outward from the first opening portion.

The housing part may further include a protrusion protruding outwardly from at least a part of the side surface of the first housing, and a fixing screw detachably fastened to the screw hole passing through the protrusion.

The adjusting screw may include a concave portion in the form of a rim on a surface in contact with the elastic member.

The elastic member may be in the shape of a ring made of an elastic material.

 According to another aspect of the present invention, there is provided a ball joint comprising: a ball stud having a spherical ball and a stud extending from the ball; And a housing part for supporting the ball stud, wherein the housing part includes: a first opening part through which the stud part is opened through a part of the housing part; And an expansion opening partly extending outwardly from the first opening.

Wherein the housing portion includes a protruding portion integrally formed with a second housing larger than a cross sectional area of the first housing and the first housing and protruding outward from at least a part of the side surface of the first housing, And a fastening screw that is detachably fastened to the base.

The ball stud may further include a fixation controller for controlling the fixation of the ball stud.

Since the ball joint according to the present invention has a simple structure and the fixability of the ball stud can be freely adjusted by using the adjusting screw and the elastic member, the angle of the structure coupled with the ball joint after the structure is installed can be easily adjusted. That is, if the stability of the ball stud is adjusted according to the weight of the structure and the frequency of the angle adjustment of the structure before the structure is installed, the adjustment of the angle of the structure can be freely adjusted even after the installation.

Further, after the installation of the structure and the adjustment of the angle are completed, the fixing screw can be used to easily install the heavy structure since it can have a relatively high fixing performance compared to a conventional ball joint having a similar size.

Moreover, since the angle of expansion can be adjusted to be larger than the angle range of the conventional ball joint adjustment through the expansion opening, a desired rotation angle can be secured, so that the installation height of the structure can be easily adjusted.

1 is a perspective view showing a ball joint according to an embodiment of the present invention;
2 is an exploded perspective view showing a ball joint according to an embodiment of the present invention;
3 is a cross-sectional perspective view showing a ball joint according to an embodiment of the present invention;
4A is a cross-sectional view illustrating a state in which a ball stud is angularly adjusted by an expansion opening according to an embodiment of the present invention.
4B is a cross-sectional view illustrating a state in which the ball stud is angularly adjusted by the first opening according to the embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is provided to let you know. In the description, the same components are denoted by the same reference numerals, and the drawings are partially exaggerated in size to accurately describe the embodiments of the present invention, and the same reference numerals denote the same elements in the drawings.

1 is a perspective view showing a ball joint according to an embodiment of the present invention, FIG. 2 is an exploded perspective view showing a ball joint according to an embodiment of the present invention, FIG. 3 is a cross- It is a perspective view.

1 to 3, a ball joint according to an embodiment of the present invention includes a ball stud 200 having a spherical ball 220 and a stud 210 extending from the ball 220; A housing part (100) for supporting the ball stud (200); An adjusting screw 400 screwed into the housing part 100; And an elastic member 300 inserted between the ball stud 200 and the adjusting screw 400 to provide a pressing force to the ball stud 200.

The ball stud 200 having the spherical ball 220 and the stud 210 extending from the ball 220 generally serves to rotate and fix the structure so that the structure can rotate in an arbitrary direction, May be inserted into the receiving portion 140 through the second opening 121 of the housing portion 100 to be held and may be wrapped and supported by the housing portion 100. [

The ball 220 of the ball stud 200 may be a spherical shape that is rotatable in an arbitrary direction within the housing part 100 and the stud 210 of the ball stud 200 may include a ball stud 200 As shown in Fig.

The stud 210 may extend from the spherical ball 220 and may be exposed through the first opening 111 of the housing part 100 and the stud 210 may move to the outside of the ball 220 And may be freely formed in accordance with the rotation of the ball 220 as a center. That is, when the stud 210 is moved to a desired angle, the ball 220 of the ball stud 200 rotates within the receiving portion 140, and the stud 210 can be adjusted at various angles.

In addition, the stud 210 may be threadably coupled to the structure outside the housing part 100, and the structure coupled with the stud 210 may rotate integrally with the ball stud 200 in any direction .

The housing part 100 supporting the ball stud 200 is closely adhered to the shape of the receiving part 140 formed in the housing part 100 and the outer shape, size, and circumference of the ball 220, The housing part 100 can support the ball stud 200 by closely supporting the ball 220 when the ball 220 is inserted into the receiving part 140 of the ball stud 200. Since the housing part 100 can firmly support the ball stud 200 without any other configuration, the configuration can be simplified.

The housing part 100 includes a first opening 111 in which a part of the housing part 100 is opened; And a second opening 121 in which the other part of the housing part 100 is opened so as to oppose the first opening part 111. The cross-sectional area of the second opening 121 may be larger than the cross-sectional area of the first opening 111.

The first opening 111 and the second opening 121 are opened at a portion of one side and the other side of the housing part 100. More specifically, the upper part of the first housing 110 is opened, The stud 210 of the first housing 200 may be formed in a circular opening shape as a predetermined space capable of rotating in any direction and a lower portion of the second housing 120 may be opened A second opening 121 having a circular shape into which the ball stud 200, the elastic member 300 and the adjusting screw 400 can be inserted can be formed.

The transverse sectional area of the second opening 121 may be larger than the transverse sectional area of the first opening 111. The ball stud 200 and the elastic member 300 may be used as the first opening 111 of the housing part 100, The first opening 111 may be formed at a size smaller than the diameter of the ball 220 so that the adjusting screw 400 can not be inserted. The ball 220 of the ball stud 200 can not be inserted into the first opening 111 and only the stud 210 of the ball stud 200 inserted into the second opening 121 is inserted into the first opening 111, As shown in FIG.

The transverse sectional area of the first opening 111 is smaller than the transverse sectional area of the second opening 121 so that the ball stud 200 inserted through the second opening 121 passes through the first opening 111 Can be prevented from being separated. That is, the ball stud 200, the elastic member 300, and the adjusting screw 400 are inserted through the second opening 121, and the balls 300 of the ball stud 200 are rotated by the elastic member 300 and the adjusting screw 400, When the ball 220 is pressed in the direction of the first opening 111, the cross-sectional area of the first opening 111 is made smaller than the cross-sectional area of the second opening 121, It is possible to prevent the liquid droplets from being separated.

FIG. 4A is a cross-sectional view illustrating a state in which the ball stud is angularly adjusted by the expansion opening according to the embodiment of the present invention, and FIG. 4B is a view showing a state in which the ball stud is angularly adjusted by the first opening according to the embodiment of the present invention. Sectional view. More specifically, Fig. 4A is a cross-sectional view showing a state in which the stud is supported by the expansion opening, and Fig. 4B is a cross-sectional view showing a state in which the stud is supported by the first opening.

Referring to FIG. 4, the housing 100 may further include an enlarged opening 112 partially extended outward from the first opening 111.

The ball 220 is prevented from being inserted into the first opening 111 and the rotation angle of the ball stud 200 is increased by forming the enlarged opening 112 that partially extends outwardly from the first opening 111 of the circular shape. It is possible to increase the range of the rotation angle in one direction by making the range larger than the range of the conventional ball stud 200 rotation angle. That is, it is possible to easily adjust the rotation angle of the stud 210 in a multistage manner, rather than one step, through the expansion opening 112 in only a predetermined direction, and to adjust the angle to be larger than the conventional adjustment angle range of the ball stud 200 Therefore, it is possible to secure a desired rotation angle, and thus the installation height adjustment of the structure can be more convenient.

In addition, since the rotation angle can be increased in one direction through the expansion opening 112, it is possible to increase the angle of rotation through the expansion opening 112, which is not the first opening 111, The angle of rotation can be adjusted within the first opening 111 rather than the enlargement opening 112. Accordingly, the angle of rotation of the ball stud 200 can be varied more than that of the conventional ball stud 200 The angle of rotation of the ball stud 200 in the angular range can be selectively adjusted.

The housing part 100 includes a receiving part 140 through which the ball stud 200, the elastic member 300 and the adjusting screw 400 are inserted through the second opening part 121, The screw 400 may be screwed into a threaded portion formed on a wall surface of the receiving portion 140 and the width of the adjusting screw 400 may be larger than the diameter of the ball 220.

The housing part 100 may have a cylindrical receiving part 140 communicating with the first opening 111 and the second opening 121 and having a receiving space. The ball stud 200, The elastic member 300 and the adjusting screw 400 so that the member 300 and the adjusting screw 400 can be received.

 The accommodating portion 140 provides a receiving space in which the ball stud 200, the elastic member 300 and the adjusting screw 400 are inserted and accommodated through the second opening 121, So that the ball stud 200 can be prevented from coming off.

The adjusting screw 400 may be screwed to the threaded portion and the width of the adjusting screw 400 may be greater than the diameter of the ball 220 .

The adjusting screw 400 functions to adjust the pressing force of the elastic member 300 and the elastic member 300 is moved by the operation of tightening the adjusting screw 400 in the receiving portion 140 along the receiving portion 140. [ Can be adjusted.

The elastic member 300 may be in the shape of a ring made of an elastic material.

The elastic member 300 is inserted between the ball 220 of the ball stud 200 and the adjusting screw 400 and is fixed to the ball stud 200 by an adjusting screw 400 The ball 220 of the ball stud 200 can be pressed by a predetermined pressure by the elastic force of the elastic member 300 and the fixability of the ball stud 200 can be adjusted.

Adjusting the stability or degree of fixation of the ball stud 200 is to adjust the force that the stud 210 needs to move with the force of a person. That is, when the position of the elastic member 300 is moved in the direction of the first opening 111 or the direction of the second opening 121 by using the adjusting screw 400, when the elastic member 300 is moved in the direction of the second opening 121, The pressing force for pressing the ball 220 of the ball stud 200 is changed, and the fixability of the ball stud 200 can be controlled by adjusting the pressing force.

When the elastic member 300 moves in the direction of the first opening 111 by using the adjusting screw 400 and the ball 220 of the ball stud 200 is pressed, the elastic member 300 presses the ball stud 200 The ball stud 200 can be fixed because the ball stud 200 does not move when the ball stud 200 is moved weaker than the force applied to the ball stud 200, The ball stud 200 can be moved freely without being fixed.

Such an elastic member 300 can be made into a ring shape by using a material having elasticity such as rubber or synthetic resin which is elastic and is compressed when a force is applied and recovered to its original shape when a force is removed. In addition to various rubber materials such as natural rubber and synthetic rubber, natural elastic materials such as cork can be used, and they can be formed using appropriate materials that are not excessively compressed or deformed in width, and can maintain proper rigidity .

When the adjusting screw 400 is fastened to the screw portion formed on the inner wall surface of the accommodating portion 140 and the adjusting screw 400 is tightened, the elastic member 300 provides the pressing force to the ball stud 200, The elasticity of the ball stud 200 can be adjusted by using the elastic member 300 and the elastic member 300.

More specifically, when the adjusting screw 400 is screwed into the screw portion formed on the wall surface of the receiving portion 140 and the screw is tightened, the elastic member 300 moves along the adjusting screw 400 in the direction of the first opening 111 The elastic member 300 is brought into close contact with the ball 220 of the ball stud 200 and the ball 220 can be strongly pressed.

The fixing force of the adjusting screw 400 and the pressing force of the elastic member 300 control the fixing performance of the ball stud 200. The adjusting screw 400 is fully tightened so that the elastic member 300 can be tightly fixed to the ball stud The ball stud 200 is prevented from being angularly adjusted and rotated so that the adjusted angle is maintained while the elastic member 300 is pressed against the ball stud 200 The rotation of the ball stud 200 can be controlled by directly moving the ball stud 200. However, since the rotation of the ball stud 200 can not be induced by the force smaller than the force for pressing the ball stud 200 by the elastic member 300, The fixability of the ball stud 200 from the screw 400 and the elastic member 300 can be adjusted.

In order to fix the ball stud 200 by fixing means such as a screw after fixing the angle of the structure to be installed and fixing the ball stud 200 at a different angle after the angle of the structure to be installed has been adjusted, the ball stud 200 has to be moved by loosening the screw, It is inconvenient to adjust the angle. However, in the ball joint according to the present invention, when the rotation angle of the structure coupled with the ball stud 200 is changed, it is not necessary to change the rotation angle by unscrewing the screw, The angle of rotation of the ball stud 200 can be changed by a simple operation after the installation of the elastic member 300 is adjusted.

Since the ball joint according to the present invention has a simple structure and the fixing property of the ball stud 200 can be freely adjusted by using the adjusting screw 400 and the elastic member 300, The angle can be easily adjusted. That is, if the stability of the ball stud 200 is adjusted according to the weight of the structure and the frequent adjustment of the angle of the structure before the structure is installed, the adjustment of the angle of the structure is free after installation.

The first housing 110 and the second housing 120 are integrally formed in the housing part 100 and the cross sectional area of the second housing 120 is larger than the cross sectional area of the first housing 110 have.

The housing part 100 supporting the ball stud 200 can be formed integrally with the first housing 110 and the second housing 120 without being coupled with a screw, an adhesive or other fixing means, So that the durability and operational reliability of the ball stud 200 can be improved. When the housing is divided into two housings for easy assembly, if the fixing means combined with the two housings is unstable, there is a gap in the housing part itself, and the ball stud 200 can not be stably supported.

The lower surface of the second housing 120 may be installed on a wall or a pillar to provide a structure coupled with the stud 210. When the cross sectional area of the second housing 120 is larger than that of the first housing 110 As the area of contact with the wall is larger than the cross sectional area, the ball stud 200 can be more stably supported on the wall. In order to control the fixability of the ball stud 200 as the cross sectional area of the second housing 120 is not equal to the cross sectional area of the first housing 110 but at least larger than the cross sectional area of the first housing 110 The adjustment screw 400 screwed to the second housing 120 of the housing part 100 can be more stably supported.

The housing part 100 includes a protrusion 130 protruding outward from at least a part of a side surface of the first housing 110 and is detachably attached to a screw hole (not shown) passing through the protrusion 130 And may further include a fixing screw 500 to be fastened.

A screw hole (not shown) for screwing the fixing screw 500 may be formed on the protrusion 130 protruding integrally with the housing part 100 from at least a part of the side surface of the first housing 110, The screw hole (not shown) may communicate with the accommodating part 140 and penetrate the protruding part 130.

The fixing screw 500 can be detachably fastened to a screw hole (not shown) of the protrusion 130 and the ball stud 200 can be more firmly fixed to improve the fixability of the ball stud 200. That is, after the fixation of the ball stud 200 is adjusted by using the adjusting screw 400 and the elastic member 300 and then the fixing screw 500 fastened to the screw hole (not shown) is tightened, The ball stud 200 can be completely fixed so that the ball stud 200 does not move. By using the fixing screw 500 after the installation and angle adjustment of the structure is completed, the fixing structure 500 can have a relatively high fixing performance as compared with a conventional ball joint having a similar size, thus facilitating installation of a heavy structure.

When the ball stud 200 is fixed with the fixing screw 500 by forming the protrusion 130 integrally formed with the housing part 100 to be thick from at least a part of the side surface of the first housing 110 to the outside, The ball stud 200 can support the ball stud 200 more stably.

The adjusting screw 400 may include a concave portion 410 having a rim shape on the surface contacting the elastic member 300 and the thickness of the elastic member 300 may be greater than the diameter of the concave portion 410 .

When the elastic member 300 presses the ball 220, the recessed portion 410 may be contacted with the deformed portion of the elastic member 300 elastically deformed.

The recess 410 provides a space in which the elastic member 300 can be collapsed so that the elastic member 300 supports the ball 220 so that the elastic member 300 can compress the ball 220. The elastic member 300 includes the recess 410, The area where the elastic member 300 and the ball 220 are in contact with each other is increased to provide a better compression force to the ball 220.

When the adjusting screw 400 is inserted through the second opening 121 by the recess 400 formed in the adjusting screw 400, The fastening becomes easier and the assemblability can be improved.

Only a part of the elastic member 300 that is elastically deformed without contacting the entirety of the elastic member 300 with the recess 410 is formed by the elastic member 300 having a thickness larger than the diameter of the recess 410, (Not shown).

When the elastic member 300 has a thickness equal to the diameter of the recess 410 and the elastic member 300 is entirely in contact with the recess 410 rather than a part of the recess 410, The elastic member 300 does not collapse when the ball 220 is pressed against the ball 220 and the contact area between the elastic member 300 and the ball 220 does not increase. It is impossible to provide the pressing force of the pressing member 300. However, when the thickness of the elastic member 300 is larger than the diameter of the recess 410, when the elastic member 300 presses the ball, a part of the elastic member 300 is distorted by the recess 410, 300 can be increased and the concave portion 410 can also increase the supporting force of the elastic member 300.

A ball joint 200 according to another embodiment of the present invention includes a ball stud 200 having a spherical ball 220 and a stud 210 extending from the ball 220; And a housing part 100 supporting the stud 210. The housing part 100 has a first opening part through which a part of the housing part 100 is opened and through which the stud 210 passes 111); And an enlarged opening 112 partially extended outward from the first opening 111.

Since the configurations are the same as those in FIG. 1 to FIG. 4, the same names and the same reference numerals are used for the same constituent elements, and redundant explanations are omitted for convenience of explanation.

The ball stud 200 having the spherical ball 220 and the stud 210 extending from the ball 220 generally serves to rotate and fix the structure so that the structure can rotate in an arbitrary direction, Can be wrapped and supported by the part (100).

The ball 220 of the ball stud 200 may be a spherical shape that is rotatable in an arbitrary direction within the housing part 100 and the stud 210 of the ball stud 200 may include a ball stud 200 As shown in Fig.

The stud 210 may extend from the spherical ball 220 and may be exposed through the first opening 111 of the housing part 100 and the stud 210 may move to the outside of the ball 220 And may be freely formed in accordance with the rotation of the ball 220 as a center. That is, when the stud 210 is moved to a desired angle, the ball 220 of the ball stud 200 rotates within the receiving portion 140, and the stud 210 can be adjusted at various angles.

In addition, the stud 210 may be threadably coupled to the structure outside the housing part 100, and the structure coupled with the stud 210 may rotate integrally with the ball stud 200 in any direction .

The housing part 100 supporting the ball stud 200 is closely adhered to the shape of the receiving part 140 formed in the housing part 100 and the outer shape, size, and circumference of the ball 220, The housing part 100 can support the ball stud 200 by closely supporting the ball 220 when the ball 220 is inserted into the receiving part 140 of the ball stud 200. Since the housing part 100 can firmly support the ball stud 200 without any other configuration, the configuration can be simplified.

The housing part 100 is integrally formed with a second housing 120 which is larger than the cross sectional area of the first housing 110 and the first housing 110, And a fixing screw 500 detachably fastened to the screw hole passing through the protrusion 130. The fixing screw 500 may be a screw,

The housing part 100 supporting the ball stud 200 can be formed integrally with the first housing 110 and the second housing 120 without being coupled with a screw, an adhesive or other fixing means, So that the durability and operational reliability of the ball stud 200 can be improved. When the housing is divided into two housings for easy assembly, if the fixing means combined with the two housings is unstable, there is a gap in the housing part itself, and the ball stud 200 can not be stably supported.

The lower surface of the second housing 120 may be installed on a wall or a pillar to provide a structure coupled with the stud 210. When the cross sectional area of the second housing 120 is larger than that of the first housing 110 As the area of contact with the wall is larger than the cross sectional area, the ball stud 200 can be more stably supported on the wall. In order to control the fixability of the ball stud 200 as the cross sectional area of the second housing 120 is not equal to the cross sectional area of the first housing 110 but at least larger than the cross sectional area of the first housing 110 The adjustment screw 400 screwed to the second housing 120 of the housing part 100 can be more stably supported.

The housing part 100 includes a protrusion 130 protruding outward from at least a part of a side surface of the first housing 110 and is detachably attached to a screw hole (not shown) passing through the protrusion 130 And may further include a fixing screw 500 to be fastened.

A screw hole (not shown) for screwing the fixing screw 500 may be formed on the protrusion 130 protruding integrally with the housing part 100 from at least a part of the side surface of the first housing 110, The screw hole (not shown) may communicate with the accommodating part 140 and penetrate the protruding part 130.

The fixing screw 500 can be detachably fastened to a screw hole (not shown) of the protrusion 130 and the ball stud 200 can be more firmly fixed to improve the fixability of the ball stud 200. That is, after the fixation of the ball stud 200 is adjusted by using the adjusting screw 400 and the elastic member 300 and then the fixing screw 500 fastened to the screw hole (not shown) is tightened, The ball stud 200 can be completely fixed so that the ball stud 200 does not move.

When the ball stud 200 is fixed with the fixing screw 500 by forming the protrusion 130 integrally formed with the housing part 100 to be thick from at least a part of the side surface of the first housing 110 to the outside, The ball stud 200 can support the ball stud 200 more stably.

More specifically, the upper part of the housing part 100 is opened to allow the stud 210 of the ball stud 200 to move in an arbitrary direction A first opening 111 having a circular shape can be formed.

The ball 220 is prevented from being inserted into the first opening 111 by forming the enlarged opening 112 that extends partly outward from the first opening 111 of the circular shape, The rotation angle range can be made larger than the conventional ball stud 200 rotation angle range, and the rotation angle range can be increased in one direction. That is, it is possible to easily adjust the rotation angle of the stud 210 in a multistage manner, rather than one step, through the expansion opening 112 in only a predetermined direction, and to adjust the angle to be larger than the conventional adjustment angle range of the ball stud 200 Therefore, it is possible to secure a desired rotation angle, and thus the installation height adjustment of the structure can be more convenient.

In addition, since the rotation angle can be increased in one direction through the expansion opening 112, it is possible to increase the angle of rotation through the expansion opening 112, which is not the first opening 111, The angle of rotation can be adjusted within the first opening 111 rather than the enlargement opening 112. Accordingly, the angle of rotation of the ball stud 200 can be varied more than that of the conventional ball stud 200 The angle of rotation of the ball stud 200 in the angular range can be selectively adjusted.

The ball stud 200 may further include a fixation controller for controlling the fixation of the ball stud 200. The fixation adjusting part may include an adjusting screw 400 and an elastic member 300.

Since the elastic member 300 provides a pressing force to the ball stud 200 when the adjusting screw 400 is fastened to the threaded portion formed on the inner wall surface of the receiving portion 140 of the housing part 100 and the adjusting screw 400 is tightened The fixing property of the ball stud 200 can be adjusted by using the adjusting screw 400 and the elastic member 300.

The adjusting screw 400 functions to adjust the pressing force of the elastic member 300 and the pressing force of the elastic member 300 can be adjusted by the operation of tightening the adjusting screw 400 in the housing part 100.

The elastic member 300 is inserted between the ball 220 of the ball stud 200 and the adjusting screw 400 and inserted into the ball 220 of the ball stud 200 by the adjusting screw 400, The ball 220 of the ball stud 200 can be pressed by a predetermined pressure by the elastic force of the elastic member 300 and the fixability of the ball stud 200 can be adjusted.

Adjusting the stability or degree of fixation of the ball stud 200 is to adjust the force that the stud 210 needs to move with the force of a person. That is, when the position of the elastic member 300 is moved in the direction of the first opening 111 or the direction of the second opening 121 by using the adjusting screw 400, when the elastic member 300 is moved in the direction of the second opening 121, The pressing force for pressing the ball 220 of the ball stud 200 is changed, and the fixability of the ball stud 200 can be controlled by adjusting the pressing force.

When the elastic member 300 moves in the direction of the first opening 111 by using the adjusting screw 400 and the ball 220 of the ball stud 200 is pressed, the elastic member 300 presses the ball stud 200 The ball stud 200 can be fixed because the ball stud 200 does not move when the ball stud 200 is moved weaker than the force applied to the ball stud 200, The ball stud 200 can be moved freely without being fixed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the embodiments set forth herein. Those skilled in the art will appreciate that various modifications and equivalent embodiments may be possible. Accordingly, the technical scope of the present invention should be defined by the following claims.

100: housing part 110: first housing
111: first opening 112: extension opening
120: second housing 121: second opening
130: protrusion 140:
200: ball stud 210: stud
220: Ball 300: Elastic member
400: Adjusting screw 410:
500: Set screw

Claims (12)

A ball stud having a spherical ball and a stud extending from the ball;
A housing part comprising a first housing and a second housing integrally formed, the housing part supporting the ball stud;
An adjusting screw screwed into the housing part; And
And a ring-shaped elastic member inserted between the ball stud and the adjusting screw to provide a pressing force to the ball and made of elastically deformable rubber or synthetic resin,
The adjusting screw
And a recess formed on a rim of an upper surface in contact with the elastic member to provide a space in which the elastic member absorbs the collapsed portion when the ball is squeezed,
The adjusting screw is screwed to an inner wall surface of the second housing,
Wherein the cross-sectional area of the second housing is larger than the cross-sectional area of the first housing to support the adjustment screw,
And the thickness of the elastic member is larger than the diameter of the concave portion.
delete The method according to claim 1,
The housing part,
A first opening in which a part of the housing part is opened; And
And a second opening portion in which a portion of the other side of the housing portion is opposed to the first opening portion.
The method of claim 3,
And a cross-sectional area of the second opening is larger than a cross-sectional area of the first opening.
The method of claim 3,
Wherein the housing portion includes a receiving portion into which the ball stud, the elastic member, and the adjusting screw are inserted through the second opening portion,
Wherein the adjusting screw is screwed to a screw portion formed on a wall surface of the accommodating portion and the width of the adjusting screw is larger than the diameter of the ball.
The method of claim 3,
Wherein the housing portion further includes an enlarged opening portion that extends partly outward from the first opening portion.
The method according to claim 1,
Wherein the housing portion includes a projection projecting outwardly from at least a part of the side surface of the first housing,
And a fixing screw which is detachably fastened to a screw hole penetrating the protruding portion. delete delete delete delete delete

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