KR102121427B1 - Stud Bolt - Google Patents

Abstract

The present invention provides a stud bolt having an improved structure to form and maintain a more rigid fixed status when it is forcibly pressed into a fixing hole of a base member and fixed. The stud bolt of the present invention includes: a rod body unit whose lower part is forced into the fixing hole of the base member; and a helical formation unit which is as a cylindrical shape having a central hole, wherein a helix is formed on the outer circumferential surface, and which is fixed to an upper part of the rod body unit because the rod body unit is inserted into the central hole. In the upper part of the rod body unit, a plurality of linear protrusions, extending in the longitudinal direction of rod shapes, are formed side by side along the outer circumferential surface. In the lower part of the rod body unit, linear valleys, extending in the longitudinal direction of the rod shapes, are arranged side by side along the outer circumferential surface.

Description

Stud Bolt

The present invention relates to a stud bolt, and relates to a stud bolt having an improved fixing structure that is fixed to the base member to form and maintain a rigid fixing state.

The stud bolt is usually installed in a fixed state by being forcedly pressed into a fixing hole of the base member, and is widely used as a fastening means for connection with other members installed on the base member.

1 illustrates a configuration in which a stud bolt is used as a fastening means for fixing a grating panel.

Referring to FIG. 1, a base member 4 supporting the grating panel 3 from the bottom to fix the grating panel 3 and a blow by a hitting gun to a fixing hole of the base member 4 Includes a stud bolt (1) installed in an upright state by being forcedly pressed into it, and a separate fastening member (2) that holds the grating panel (3) mounted on the base member (4) and is spirally coupled to the stud bolt (1). .

Accordingly, the grating panel 3 can be firmly fixed on the base member 4.

FIG. 2 is described in Korean Patent Publication No. 10-1451071, and shows a specific configuration example of such a stud bolt.

Referring to FIG. 2, the stud bolt 5 has a root portion 6a for fixing the spiral coupling portion 7 to the upper portion of the main body 6 and forcibly fixed to the fixing hole of the base member 4. It is formed, and the washer part 8 is located between the spiral coupling part 7 and the root part 6a.

Such a stud bolt (5), after forming a fixing hole by drilling (drilling) to the base member (4), the striking gun (gun) grabs the head of the body (6) of the stud bolt (5), The root part 6a is pushed into the fixing hole so that it is forced to press it.

Accordingly, the root portion 6a of the stud bolt 5 is coupled to the base member 4 so that the stud bolt 5 can form a solid installation state on the base member 4.

However, in the case of the above-mentioned conventional stud bolt 5, the material is combined with each other by friction between the root portion 6a forcedly pressed into the fixing hole by the impact of impact and the inner circumferential surface of the fixing hole, thereby exerting a fixing force, When a large external force acts and the stud bolt 5 is pulled out from the base member 4, there is a problem in that the load that can be supported is limited.

The present invention has been derived in view of the above, the object of the present invention is to provide a stud bolt having an improved structure to form and maintain a more rigid fixing state when forcibly press-fitted into a fixing hole of the base member.

In order to achieve the above object, the stud bolt of the present invention, the lower part is fixed to the fixing hole of the base member, and a spiral is formed on the outer circumferential surface with the center hole, and the rod part is fitted into the center hole to form the rod part A helical portion fixed to the upper portion, wherein the rod portion is formed on the upper portion, a plurality of linear projections extending in the longitudinal direction along the outer circumferential surface, the linear projections of the central hole when forced to fit into the central hole It is coupled to the helical portion in a pressed state on the inner circumferential surface, and in the lower portion, a linear bone extending in the longitudinal direction of the rod is installed on the outer circumferential surface, and the deformed flesh portion of the base member is linear in the state of being embedded in the fixing hole It is possible to penetrate the bone, a tapered inclined portion is formed that is formed in an annular shape below the linear bone at the lower portion of the rod body and gradually increases in diameter as it goes upward, and the lower portion of the rod portion is formed from the lower side of the inclined portion. It is formed to be continuous with the lower end of the inclined portion, and an expansion deformation portion having a smaller diameter than the portion where the linear bone is formed is installed, and when the expansion deformation portion is pushed into the fixing hole of the base member, deformation is easily generated. In order to be possible, a concave space is formed to be concave from the lower end toward the upper side so that the center is empty, and the expansion deformation part hits the lower end and the funnel-shaped bottom surface of the fixing hole so that the end of the expansion deformation part In order to assemble the deformation, the deformation guide portion of a tapered shape which is formed in an annular shape to surround the concave space and gradually increases in diameter as it goes upward is installed, so that the inner peripheral surface of the fixing hole pushed downward by the inclined portion It is characterized in that a part of the flesh is protruded into the space between the expansion deformed portion and the inclined portion, which is radially outwardly deformed, so that the expanded deformable portion is hung.

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In addition, in the stud bolt of the present invention, a plurality of incisions are formed at the intermediate height of the expanded deformation portion along the periphery of the concave space, and a plurality of incision portions are cut through the wall portion of the expanded deformation portion. It is characterized by being located on the upper side.

In the stud bolt according to the present invention, the deformed flesh portions of the base member in a state in which the linear bones extending in the longitudinal direction of the rod shape are arranged side by side along the outer circumferential surface in the lower part of the rod body, while being forced into the fixing hole of the base member. Can penetrate linear bones. Accordingly, the flesh portion of the inner circumferential surface of the fixing hole is deformed so as to penetrate between the linear bones, so that the lower portion of the rod body can be gripped, thereby generating a fixing force in which the rod body does not rotate in the fixing hole, and also The frictional area between the lower portion and the inner circumferential surface of the fixing hole is increased by a plurality of linear bones and flesh portions of the base member penetrating the linear bone, so that it can have a greater resistance to external force to be pulled out of the fixing hole. .

In addition, in the stud bolt according to the present invention, an expansion deformation portion is installed at a lower end of the rod, and the expansion deformation portion has a central portion from the lower end toward the upper side so that expansion deformation can be easily generated radially outward when squeezed up and down. It forms an empty concave space.

Accordingly, in the state where the stud bolt is embedded in the fixing hole of the base member, a part of the flesh of the inner circumferential surface of the fixing hole is positioned between the inclined portion and the expanded deformation portion, and the expanded deformation portion can be expanded to the lower side thereof Thereby, it is possible to resist the external force to pull the stud bolt out of the base member and to be firmly fixed to the base member.

1 is a configuration explanatory diagram showing a configuration in which a conventional stud bolt is used as a fastening means for fixing a grating panel.
Figure 2 is a perspective configuration diagram showing a specific configuration example of a conventional stud bolt
Figure 3 is an exploded perspective view illustrating the configuration of the stud bolt according to an embodiment of the present invention
Figure 4 is a cross-sectional configuration diagram illustrating the configuration of the fixing hole of the stud bolt and the base member according to an embodiment of the present invention
Figure 5 is an explanatory view showing a state in which the stud bolt according to an embodiment of the present invention is press-fit into the fixing hole of the base member
Figure 6 is an explanatory diagram showing an intermediate process in which the stud bolt according to an embodiment of the present invention is pressed into the fixing hole of the base member
7 is an explanatory diagram illustrating a state in which a stud bolt according to an embodiment of the present invention is installed in a fixing hole of a base member
8 is a configuration explanatory diagram showing a configuration in which a plurality of incision parts are installed in an expansion deformable part in a stud bolt according to an embodiment of the present invention.
9 is an explanatory diagram illustrating a process in which a stud bolt according to an embodiment of the present invention is coupled with a cap member to fix the grating panel in a state where the stud bolt is installed in the fixing hole of the base member

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

Referring to Figures 3 and 4, the stud bolt according to an embodiment of the present invention, which forms a rod shape, the lower portion of the rod member 10 is forcibly pressed into the fixing hole 52 of the base member 50, and the central hole As a cylindrical shape with 21, a spiral 22 is formed on the outer circumferential surface, and the rod 10 is fitted into the central hole 21 and includes a helical portion 20 fixed to the top of the rod 10.

The rod portion 10 forms a shape of a circular rod extending up and down, and a head 15 is formed at the top.

The upper portion of the rod 10 is a spiral portion 20 is coupled, the lower portion is a root portion fixed to be fixed to the fixing hole 52 of the base member 50.

The helical portion 20 is a cylindrical shape having a central hole 21, the spiral 22 is formed on the outer peripheral surface.

The helical portion 20 is manufactured to be divided into a rod portion 10 and to have a spiral 22 to be coupled with another fastening member on an outer circumferential surface of the upper portion of the rod portion 10, the helical portion 20 and the rod portion 10 may be integrally manufactured, but needs to be manufactured separately from each other so as to configure the material of the rod 10 with higher strength than the helical portion 20.

That is, the helical portion 20 in which the spiral 22 is to be formed is made of a flexible material capable of having good workability for cutting or rolling of the spiral 22, and the fixing hole 52 of the base member 50 The rod body part 10 to be struck is made of a metal of high strength so that it is not deformed by a striking force, but deforms the inner surface of the fixing hole 52 and pushes it well.

However, in this embodiment, the helical portion 20 and the rod 10 may be manufactured as a single part by cutting in an integrated state, and in such a configuration, the outer circumferential surface of the upper portion of the rod 10 is spiral ( 22) is formed and becomes a part in which a linear bone 14, which will be described later, is installed below the rod.

The cover disk portion 30 is fitted with a rod 10 in the center of the installation hole 31 from the lower side of the helical portion 20, and the lower portion of the rod 10 is fixed hole 52 by external impact force ) Serves to limit the depth to be hit, and serves to protect the fixing hole 52.

Disc cover 30 is provided with a disc-shaped packing 35 to serve as a sealing material to block the inflow of rainwater or the like into the fixing hole 52.

On the other hand, the rod 10 is formed with a plurality of linear projections 13 to be coupled to the helical portion 20 on the top, the lower portion of the rod 10 is fixed to the fixing hole 52 of the base member 50 A plurality of linear bones 14 are formed to be firmly coupled.

That is, on the upper portion of the rod portion 10, a plurality of linear projections 13 extending in the longitudinal direction of the rod shape are formed in parallel with each other along the outer circumferential surface, the rod portion 10 in the central hole 21 of the helical portion 20 When the upper portion of the fitting, the linear protrusion 13 is fitted while deforming the inner circumferential surface of the central hole 21, thereby being coupled with the helical portion 20 in a pressurized state. Accordingly, the linear protrusion 13 is pressed against the inner circumferential surface of the central hole 21 of the helical portion 20, and the helical portion 20 holds the linear protrusions 13 in a microscopically deformed state, so that the helical portion ( 20) can be rotated integrally with each other without sliding around the rod 10.

In the lower portion of the rod part 10, the linear bones 14 extending in the longitudinal direction of the rod shape are arranged side by side along each other along the outer circumferential surface, thereby forcing the base member 50 in the fixed hole 52 of the base member 50 ), the deformed flesh portion may penetrate the linear bone 14.

Accordingly, when the lower portion of the rod 10 is forcibly hit while pushing the inner circumferential surface 55 of the fixing hole 52, as shown in the enlarged picture of FIG. 7, the flesh of the inner circumferential surface 55 of the fixing hole 52 Since the portion is deformed to penetrate between the linear bones 14 and can grip the lower portion of the rod 10, the rod 10 generates a fixing force that does not rotate within the fixing hole 52.

In addition, the friction area between the lower portion of the rod 10 and the inner circumferential surface 55 of the fixing hole 52 is of a plurality of linear bones 14 and the base member 50 penetrating the linear bones 14. By being increased by the flesh portion, it is possible to have a greater resistance to external force to pull the rod 10 out of the fixing hole 52.

On the other hand, referring to Figure 4, the lower portion of the linear bone 14 from the lower portion of the rod body 10 is formed in an annular shape and a tapered inclined portion 12 that gradually increases in diameter as it goes upward is formed. .

When the lower portion of the inclined portion 12 is driven into the fixing hole 52 by an instantaneous blow, the slant portion 12 pushes the flesh of the inner circumferential surface 55 of the fixing hole 52 so that smooth entry is possible. Induces.

When the inclined portion 12 has a tapered shape and its inclination angle α is too small relative to the central axis of the rod 10, the lower portion of the rod 10 enters the fixing hole 52 easily. Since the generation of frictional heat is small, coupling between each other by thermal deformation of the rod 10 and the base member 50 is insufficient.

Therefore, the inclined portion 12 is configured to have a tapered inclination angle α in a range of 50 to 75° based on the central axis 11 of the rod 10, so that the lower portion of the rod 10 While entering the fixing hole 52, it is preferable to induce a predetermined deformation and generation of frictional heat while pushing and descending a portion of the inner peripheral surface 55 of the fixing hole 52.

On the other hand, the lower end of the rod body 10 is provided with an expanded deformation portion 16 with a smaller diameter than the portion where the linear bone 14 is formed.

The expansion deformation portion 16, when the rod 10 is struck in the fixing hole 52 of the base member 50, hits the bottom surface of the fixing hole 52, is compressed up and down, and is expanded and deformed radially outward Part.

In order to facilitate this deformation, a concave space (16a) is formed in which the center is empty from the lower end of the expanded deformation portion (16) toward the upper side, and also at the lower end of the expanded deformation portion (16). It is formed in an annular shape to surround the space 16a, and a deformation guide portion 16b, which is an inclined surface of a tapered shape so as to gradually increase in diameter as it goes upward, is installed.

The concave space 16a is installed to leave the central portion of the expansion deformable portion 16 empty and to form a relatively small thickness of the peripheral wall portion 16c so that the peripheral wall portion 16c can be deformed.

In addition, the deformation guide portion 16b so that the lower end of the expansion deformation portion 16 can be gathered from the circumference to the center side along the inclined bottom surface 53 upon contact with the bottom surface 53 of the fixing hole 52. This is the inducing part.

That is, the fixing hole 52 is usually formed by drilling, and the bottom surface 53 of the fixing hole 52 generated by the shape of the drill blade has the deepest center and gradually increases toward the outside, forming a funnel shape that gradually increases. When the deformation guide portion 16b is pressed up and down while the tapered inclined surface of the deformation guide portion 16b is in contact with the inclined bottom surface 53 of the fixing hole 52, the expansion deformation portion 16 The lower end of the sliding deformation to gather toward the center of the bottom surface 53 of the fixing hole 52, the expansion deformation portion 16 is compressed.

During the pressing process, a deformation occurs in which the wall portion 16c protrudes radially outward around the concave space 16a at an approximately mid-height of the expansion deformable portion 16.

Referring to FIG. 8, the expansion deformed portion 16 has an incision (C) that cuts the wall portion 16c of the expanded deformable portion 16 at an intermediate height of the expanded deformable portion 16 along the circumference of the concave space 16a ( When a plurality of 16d) are formed, deformation in which the wall portion 16c protrudes radially outward may more easily occur.

Hereinafter, the action of firmly fixing the stud bolt according to the embodiment of the present invention to the base member 50 will be described.

First, the fixing hole 52 is formed to a predetermined depth by drilling at a specific position of the base member 50.

During the drilling, it is necessary to make adjustments regarding the drilling depth so that the depth of the fixing hole 52 can be formed at a set value. That is, the drilling depth should be smaller than the length from the lower surface of the washer portion 30 of the stud bolt to the lower end of the expansion deformation portion 16 so that deformation of the expansion deformation portion 16 may occur, and the expansion deformation portion 16 is crimped. It can be roughly the same as the length of the lower portion of the rod 10 when in the state.

In addition, the diameter of the fixing hole 52 is 0.5 to 2 mm smaller than the diameter of the lower portion of the rod 10, so that the lower portion of the rod 10 is pressed while expanding the inner circumferential surface 55 of the fixing hole 52. Can be. The outer diameter of the expansion deformed portion 16 is formed smaller than the diameter of the fixing hole 52.

When the fixing hole 52 is formed, the head 15 of the rod 10 is held by the striking gun, and as shown in FIG. 5, the inclined portion 12 of the rod 10 is brought into contact with the entrance of the fixing hole 52 Strike vertically by pulling the trigger.

By the blow, the lower portion of the rod 10 is forcibly forced into the fixing hole 52, and can be smoothly entered while deforming the outer circumferential surface of the fixing hole 52 by the inclined portion 12. In the process, the deformed flesh portion of the base member 50 partially penetrates the plurality of linear bones 14 of the rod 10.

Accordingly, the base member 50 grasps the rod 10 and generates a fixing force in which the stud bolt does not rotate by external force in the fixing hole 52.

On the other hand, in the process of the lower portion of the rod body 10 is pressed into the fixing hole 52, the inclined portion 12 descends while pushing the flesh of the inner circumferential surface 55, the inner circumferential surface 55 of the fixing hole 52 Part of the flesh portion 56 is pushed down by the inclined portion 12, as shown in Figure 6 downward.

In the final stage of the indentation process, when the lower end of the expansion deformation portion 16 contacts the bottom surface of the fixing hole 52, the deformation guide portion 16b slides in contact with the tapered inclined bottom surface 53 When the lower end of the expansion deformed portion 16 is gathered toward the center, and the expansion deformed portion 16 continues to be compressed up and down in the process of deformation, the concave space 16a at approximately the middle height of the expanded deformed portion 16 In the circumference of the wall, deformation occurs in which the wall portion 16c protrudes radially outward.

In such an expansion deformation, a plurality of incision portions 16d that cut the wall portion 16c of the expansion deformation portion 16 at an intermediate height of the expansion deformation portion 16 along the periphery of the concave space 16a are formed as shown in FIG. 8. Case, it may occur more easily.

When the deformation of the expanded deformation portion 16 is completed and the process of pressing the lower portion of the rod 10 into the fixing hole 52 is completed, the fixing hole 52 pushed downward by the inclined portion 12 7, a portion 57 of the inner circumferential surface 55 is positioned between the inclined portion 12 and the expanded deformable portion 16, and the expanded deformable portion 16 is expanded to the lower side thereof. do.

Accordingly, even if the stud bolt receives an external force to be pulled out from the base member 50, the final deformed expansion deformation portion 16, the flesh portion protruding from the inner peripheral surface 55 of the fixing hole 52 toward the inclined portion 12 Since it is in a jammed state, it can resist an external force and be firmly fixed to the base member 50.

Referring to Figure 9, after such a stud bolt is installed on the base member 50, the grating panel 80 is raised on the base member 50, and then, the cap member 70 is placed on the top surface of the grating panel 80. Spiral coupled to the helical portion 20 of the stud bolt in the covered state.

Accordingly, the stud bolt and the cap member 70 can cooperate to fix the grating panel 80 on the base member 50.

Although the preferred embodiments of the present invention have been described above, the above embodiments are only one embodiment within the scope of the technical spirit of the present invention, and those skilled in the art within the technical spirit of the present invention. Of course, other modified implementations are possible.

10; Suture part 11; Central axis
12; Slope 13; Linear projection
14; Linear bone 15; head
16; Expansion deformation portion 16a; Concave space
16b; Deformation guide 16c; Wall part
16d; Incision 20; Spiral
22; Helix 21; Center ball
30; Cover disc portion 31; Installer
35; Packing 50; Base member
52; Fixture 53; Floor
55; Inner circumference 56,57; Flesh
70; Cap member 80; Grating panel

Claims (5)

The lower body is fixed to the fixing hole 52 of the base member 10, and a spiral 22 is formed on the outer circumferential surface with a central hole, and the rod 10 is inserted into the central hole to insert the rod 10 The spiral portion 20 is fixed to the upper portion of the,
The rod part 10 is
In the upper portion, a plurality of linear protrusions 13 extending in the longitudinal direction of the rod-shaped portion of the rod body are formed along an outer circumferential surface, so that the linear protrusions 13 are pressed against the inner circumferential surface of the central hole when being forced into the central hole. Furnace coupled to the spiral portion 20,
In the lower portion, a linear bone 14 extending in the longitudinal direction of the rod-shaped is installed on the outer circumferential surface, so that the deformed flesh portion of the base member penetrates the linear bone 14 in a state studded with the fixing hole 52. Can,
The lower portion of the rod 10 is formed in an annular shape on the lower side of the linear bone 14 and a tapered inclined portion 12 is formed which gradually increases in diameter as it goes upward.
At the lower end of the rod part 10, an extended deformation part 16 formed to be continuous with the lower end of the inclined part 12 from the lower side of the inclined part 12 and having a diameter smaller than a portion where the linear bone 14 is formed. ) Is installed,
The expanded deformation portion 16, when the rod portion 10 is fixed to the fixing hole 52 of the base member, so that deformation can be easily generated, the concave toward the upper end from the lower end is empty state To form a concave space (16a) to be,
The concave space so that the deformation at the lower end of the expansion deformed portion 16 can be induced to collide with the bottom surface 53, which is the funnel shape of the fixing hole 52, and the end of the expanded deformed portion 16 converge. (16a) is formed in an annular shape so as to surround the tapered shape of the deformation guide portion (16b) gradually increasing in diameter as it goes upward is installed,
A part of the flesh portion 57 of the inner circumferential surface 55 of the fixing hole 52 pushed downward by the inclined portion 12, the expanded deformable portion 16 radially outwardly deformed, and the inclined portion (12) Stud bolts, characterized in that protruding into the space between the expansion deformation portion 16 can be in a jammed state According to claim 1,
The expansion deformed portion 16 has an incision 16d that cuts the wall portion 16c of the expanded deformed portion 16 at an intermediate height of the expanded deformed portion 16 along the circumference of the concave space 16a. A plurality of formed, the incision (16d) is a stud bolt, characterized in that located on the upper side spaced apart from the deformation guide portion (16b) delete delete delete

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