KR20130123187A - Stud welding gun - Google Patents

Abstract

A stud welding gun is disclosed. The stud welding gun of the present invention includes: a gun type main body for allowing an operator to perform a stud welding process with gripping the same; a coil unit having a hollow part of which both ends are opened, wherein a coil is wound on the outer circumference of the hollow part, being installed inside the main body, and generating heat according to being applied with power; an adapter being coupled to the coil unit while a part thereof is inserted into one side of the hollow part and protruding from the main body forwards; and a stud chuck being mutually coupled to the adapter with a screw and having a front end part in which a stud is detachably gripped, wherein the coil unit includes a coil unit housing which surrounds a residual zone except the hollow part in order to prevent the heat from the coil from being transmitted to the main body. The present invention allows the operator to perform the stud welding process by preventing the welding gun from being heated and overloaded through practically preventing the heat generated in the coil from being transmitted to the main body in the stud welding process, and improves the welding property of the stud by raising an electromagnetic force with the structure surrounding the coil.

Description

Stud Welding Gun {STUD WELDING GUN}

The present invention relates to a stud welding gun, and more particularly, to stud welding to prevent heat and overload phenomenon of the gun by cutting off the heat transferred from the coil to the main body to enable a long time work and to increase the electronics of the coil stud It is about a welding gun.

Stud welding refers to a welding that generates an arc by using a stud made of steel or stainless steel as an electrode, and compresses it to the base material while the stud is molten. In other words, the stud welding is used to melt the end surface of the stud by using a stud welding gun, and press the fused end surface to the base material, and is commonly used in industrial fields such as heavy industry, plants and shipyards.

The structure of a conventional stud welding gun is a gun-type main body for performing stud welding while a worker is held, a coil embedded in the main body to generate heat according to the supply of power, and an adapter coupled to the coil. And a chuck coupled to the adapter and gripping the stud at the distal end.

According to this configuration, when stud welding is performed, the stud is held in contact with the position of the base material to be welded while held in the chuck. Then, when the switch provided in the stud welding gun is operated, heat is generated in the coil and the heat is transmitted to the stud through the adapter chuck, and an arc is generated between the base materials, so that welding for fixing the stud is performed. .

On the other hand, Korean Patent No. 10-0593434 (2006.06.19. Registered; name of the invention: the structure of the stud welding gun for automobiles) discloses an example of a stud welding gun for stud welding.

However, such a conventional stud welding gun has a disadvantage in that the heat generated from the coil during the operation is directly transferred to the gun body to become hot or overloaded by heat transferred to the gun body, thereby preventing long-term work activity.

Therefore, it is necessary to develop a stud welding gun that can work for a long time by preventing the heating and overload of the gun by blocking the heat transferred from the coil to the main body during the stud welding operation.

Registered Korean Patent No. 10-0593434 (June 19, 2006; Name of invention: Structure of stud welding gun for automobile)

The technical problem of the present invention is to prevent the heat generated from the coil from being transferred to the main body during the stud welding operation to prevent the heating and overload of the gun due to heat can work for a long time stud welding gun that can increase the electronics of the coil To provide.

The technical problem to be achieved by the present invention is not limited to the technical problem mentioned above, and other technical problems that are not mentioned may be clearly implemented to those skilled in the art from the following description. There will be.

In order to achieve the above and other objects, the present invention, the gun (Gun) type body for performing the stud welding in the operator gripped state; A coil unit formed on the outer circumference of the hollow portion at which both ends are opened, the coil unit being built in the main body and generating heat according to the application of power; An adapter which is coupled to be inserted into one side of the hollow part of the coil unit and protrudes toward the front of the main body; And a stud chuck screwed together with the adapter and detachably held by a stud at a front end portion, wherein the coil unit wraps the remaining area except the hollow portion so that heat generated from the coil is not transferred to the main body. It provides a stud welding gun comprising a coil unit housing for.

In the present invention, the coil unit housing may be made of a thermally conductive material.

In the present invention, the material of the coil unit housing may be iron, a nonferrous metal having thermal conductivity, or a combination thereof.

In addition, the present invention provides a gun-type main body for performing stud welding in a state held by the operator; A coil unit formed on the outer circumference of the hollow portion at which both ends are opened, the coil unit being built in the main body and generating heat according to the application of power; An adapter which is coupled to be inserted into one side of the hollow part of the coil unit and protrudes toward the front of the main body; And a stud chuck screwed together with the adapter and detachably held by a stud at a front end, and according to the length of the stud, adjusting a stud spacing for adjusting a distance between the stud chuck and a base material to which the stud is welded. A stud welding gun is provided, comprising a unit.

In the present invention, the stud spacing control unit is coupled to the front of the main body, but a pair of guide brackets formed on both sides through the support bracket; A spacing adjuster coupled to the guide hole of the support bracket to be spaced apart according to the length of the stud; And a fixing screw for fixing the gap adjusting part to the support bracket.

In the present invention, the gap adjusting portion, a pair of guide bars which are guided sliding along the guide hole of the support bracket on both sides of the main body; And it is formed to interconnect the front end of the guide bar may include a positioning socket for positioning the stud at the welding position of the base material.

In the present invention, the positioning socket, at least one positioning groove may be formed on the outer circumference so as to confirm from the outside whether the stud is located at the welding position of the base material.

In the present invention, the coil unit may include a coil unit housing for wrapping the remaining area except the hollow portion so that heat generated from the coil is not transmitted to the main body.

In the present invention, the coil unit housing may be made of a thermally conductive material.

In the present invention, the material of the coil unit housing may be iron, a nonferrous metal having thermal conductivity, or a combination thereof.

According to the present invention, by substantially blocking the transfer of heat generated from the coil to the main body during the stud welding operation to prevent the heating and overload phenomenon of the welding gun is possible to work for a long time and to increase the electromagnetic force by the structure surrounding the coil The weldability of the stud can be improved.

1 is a perspective view of a stud welding gun in accordance with one embodiment of the present invention.
Figure 2 is a cross-sectional view showing the interior of the stud welding gun of Figure 1;
3 is a perspective view of a coil unit embedded in the stud welding gun of FIG. 2.
4 is a cross-sectional view of the coil unit of FIG. 3.
5 is a perspective view of a stud spacing adjusting unit provided in the stud welding gun of FIG.
6 is a cross-sectional view showing an operating state of the stud spacing unit of FIG.
7 is a cross-sectional view of a state of use of the stud welding gun according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

1 is a perspective view of a stud welding gun according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing the interior of the stud welding gun of Figure 1, Figure 3 is a perspective view of a coil unit built in the stud welding gun of Figure 2, Figure 4 is a cross-sectional view of the coil unit of Figure 3, Figure 5 is a perspective view of the stud spacing unit provided in Figure 1 stud welding gun, Figure 6 is a cross-sectional view showing the operating state of the stud spacing unit of Figure 5, 7 is a cross-sectional view of a state of use of the stud welding gun according to an embodiment of the present invention.

Stud welding gun 100 according to an embodiment of the present invention, as shown in Figures 1 to 7, the gun type of the main body 110, the body 110 is built in the heat according to the application of power Coil unit 120 is provided to generate, the adapter 130 is coupled to the coil unit 120 is provided to protrude in front of the main body 110, and the screw 130 is mutually screwed with the adapter 130, the base material Stud chuck 140 to be welded to be integrated with (1) (for example, a heat insulating pin) (S) is provided to be detachably gripped, and the base material to weld the stud chuck 140 and the stud (S) (1) and a stud spacing adjusting unit 150 for adjusting the spacing.

As shown in FIGS. 1 and 2, the main body 110 forms a main frame of the stud welding gun 100 and is shaped to be a gun type to perform stud welding in a state in which the worker is gripped. to be. The main body 110 is formed in a pair corresponding to each other is provided to be coupled and separated.

The main body 110 is provided with a cap 112 and a support bracket 152 so as to be mutually coupled and detachable.

The cap 112 is configured to be coupled to the rear of the main body 110, the support bracket 152 is provided in the stud spacing adjusting unit 150 to be described later is configured to be coupled to the front of the main body 110.

On the other hand, reference numeral '114' is a configuration of the operation switch provided in the main body 110 to operate the coil unit 120.

The coil unit 120 has a coil unit body 122 having a hollow part 123 that is formed at both ends to form a main frame and is built in the main body 110 as shown in FIGS. 3 and 4. , A coil 124 wound around the outer periphery of the coil unit body 122, and a coil unit housing 126 formed to surround the remaining area of the coil unit body 122 except for the hollow part 123.

Here, the coil unit body 122 and the coil 124 is a known configuration that is widely applied in the technical field of the stud welding gun before the application of the present invention. This configuration and operation can be easily carried out by those skilled in the art, so a detailed description thereof will be omitted.

The coil unit housing 126 wraps around the coil unit main body 122. That is, the coil unit housing 126 is formed to surround the remaining area except for the hollow part 123 of the coil unit body 122.

In this case, the material of the coil unit housing 126 may be formed of iron, non-ferrous metal or a combination thereof having thermal conductivity.

That is, the coil unit housing 126 may be formed of a single piece of iron or of a single piece or an alloy thereof selected from nonferrous metals, or may be formed of a combination of iron and nonferrous metals.

The present invention provides a structure surrounding the main body 110 of the coil unit by the coil unit housing 126, thereby preventing the main body 110 from being heated by heat generated in the coil 124 while having a thermal conductivity The heat is rapidly absorbed by the 126 to cool the heat of the coil 124 quickly.

In addition, the weak force generated in the coil 124 by the coil unit housing 126 surrounding the coil unit main body 122 to exhibit a greater electromagnetic force to provide a strong current to the stud chuck 140 studs Improved weldability through strong penetration / welding between (S) and the base material (1).

As shown in FIG. 2, the adapter 130 is coupled to be inserted into one side of the hollow part 123 of the coil unit 120 to protrude forward of the main body 110. This adapter 130 is a known configuration that is widely applied in the art of stud welding guns before the application of the present invention. This configuration and operation can be easily carried out by those skilled in the art, so a detailed description thereof will be omitted.

As shown in FIG. 2, the stud chuck 140 is screw-connected with the adapter 130 and the stud S is detachably gripped in the cross groove 142 of the front end portion. This stud chuck 140 is a known configuration that is widely applied in the art of the stud welding gun before the application of the present invention. This configuration and operation can be easily carried out by those skilled in the art, so a detailed description thereof will be omitted.

Stud spacing adjusting unit 150, as shown in Figure 5 and 6 is a configuration for adjusting the distance between the stud (S) and the base material according to the length of the stud (S) to be welded to the base material (1), A support bracket 152 coupled to the front of the main body 110, a gap adjusting part 154 slidably coupled to the support bracket 152 according to a gap adjustment between the stud S and the base material 1, and It includes a fixing screw 158 for fixing the spacer 154 to the support bracket 152.

The support bracket 152 is configured to be coupled to the front of the main body 110. Since the support bracket 152 is disposed to be coupled to the front of the main body 110, the main body 110 can be completely coupled with the cap 112 while stably supporting the gap adjusting unit 154 described later.

The support bracket 152 has a pair of guide holes 152A formed on both sides thereof, and the guide bars 155 provided in the gap adjusting part 154 are inserted and coupled to the guide holes 152A.

The gap adjusting part 154 is formed to interconnect a pair of guide bars 155 forming a main frame, and a tip of the guide bar 155, and the stud S is placed at a welding position of the base material 1. Positioning socket 156 for positioning.

The pair of guide bars 155 is a rod-shaped configuration provided with a predetermined length so as to be guided sliding on the guide hole 152A of the support bracket 152. Guide bar 155 is slidably coupled to the guide hole (152A) for adjusting the distance between the stud (S) held in the stud chuck 140 and the base material (1).

The positioning socket 156 is in contact with the base material 1 to determine the welding position of the stud S. As shown in FIG. The positioning socket 156 is formed to interconnect the tip of the guide bar 155.

That is, the positioning socket 156 is in contact with the surface of the base material 1 when the stud (S) is welded to the base material (1).

The positioning socket 156 is provided with a positioning groove 156A for confirming externally whether the stud S is located at the welding position of the base material 1.

The positioning groove 156A is configured to be able to confirm from the outside whether the stud S is located at the correct position of the base material 1 to be welded.

That is, the operator can easily check the welding position of the stud (S) through the positioning groove 156A provided in the positioning socket 156 when welding the stud (S) to the base material (1), accordingly (S) can be welded to the correct position of the base material 1. That is, when the operator welds the studs S to the base material 1, it is possible to prevent the operation error of welding to be out of the determined welding position of the base material (1).

The fixing screw 158 is configured to fix the guide bar 155 to the support bracket 152. The fixing screw 158 is coupled to the lower surface of the support bracket 152 so as to correspond to the guide hole 152A so as to be tightened and loosened.

That is, when the fixing screw 158 is released, the guide bar 155 is slidable on the guide hole 152A, and when the fixing screw 158 is tightened, the guide bar 155 is fixed to the guide hole 152A. .

Such stud spacing control unit 150, between the stud (S) and the base material (1) that is held in the stud chuck 140 when welding the stud (S) formed to have a variety of lengths in accordance with the standard (1) The spacing can be easily adjusted.

In addition, the stud spacing adjusting unit 150 can improve the stability of the welding gun when welding the stud (S) to the base material (1) by providing a structure to contact the positioning socket 156 to the base material (1).

Hereinafter, the operation of the stud welding gun according to an embodiment of the present invention will be described with reference to FIG. 7.

As shown in FIG. 7, the stud welding gun 100 of the present invention uses the stud chuck 140 and the base material using the stud spacing adjusting unit 150 according to the length of the stud S to be welded to the base material 1. Set so that the space between (1) is adjusted. At this time, the contact surface of the base material 1 of the stud S coincides with the end of the positioning socket 156.

That is, according to the length of the stud (S) having a variety of specifications, the guide bar 155 and the stud chuck through the process of sliding the guide hole 152A provided in the support bracket 152 and fixing with a fixing screw 158 The spacing between the base materials can be easily adjusted.

When the distance between the stud chuck 140 and the base material 1 is set to be adjusted by the stud spacing adjusting unit 150, the stud S is inserted into the cross groove 142 of the stud chuck 140 to be gripped.

When the stud S is gripped by the stud chuck 140, the positioning socket 156 is brought into contact with the exact position of the base material 1 to which the stud S is to be welded. At this time, the operator can easily check whether the stud (S) is located at the correct position of the base material (1) through the positioning groove 156A provided in the positioning socket (156).

When the stud S is positioned at the correct position of the base material 1 by the positioning socket 156, the operation switch 114 provided in the main body 110 is operated. Then, the coil unit 120 starts to operate according to the application of power.

When the coil unit 120 is operated, a current accompanied by strong heat in the coil 124 flows to the stud S through the adapter and the stud chuck 140, thereby causing a strong arc between the stud S and the base material 1. The stud (S) is thus welded while being welded to the base material (1).

At this time, the coil unit 120 is formed in a structure wrapped by the coil unit housing 126, so that heat generated from the coil 124 is not directly transmitted to the main body 110. In addition, the coil unit housing 126 is formed of a material having thermal conductivity to absorb the heat to cool the heat of the coil 124 quickly. As a result, the stud welding gun 100 is prevented from being heated by heat and overload phenomenon to be able to work for a long time.

In addition, by providing a weak electromagnetic force generated by the coil 124 to the greater electromagnetic force by the coil unit housing 126 surrounding the coil unit body 122 provides a strong current instantaneously to the stud chuck 140. As a result, the weldability is improved through strong penetration / welding between the studs S and the base material 1.

As described above, in the present embodiment, the stud welding gun 100 prevents heating and overload phenomenon by preventing heat generated from the coil 124 from being transferred to the main body 110 during the stud welding operation, thus preventing the heating and overloading phenomenon. In this case, the weldability of the stud S can be improved by increasing the electromagnetic force generated in the coil 124.

While specific embodiments of the invention have been described and illustrated above, it is to be understood that the invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the invention. It is self-evident to those who have. Therefore, such modifications or variations are not to be understood individually from the technical spirit or point of view of the present invention, the modified embodiments will belong to the claims of the present invention.

110: body 112: cap
114; Operation switch 120: coil unit
122: coil unit body 123: hollow part
124: coil 126: coil unit housing
130: adapter 140: stud chuck
142: slotted groove 150: stud spacing unit
152: support bracket 152A: guide hole
154: spacing adjuster 155: guide bar
156: Positioning socket 156A: Positioning groove
158: set screw S: stud

Claims (10)

A gun type body for performing stud welding while the worker is gripped;
A coil unit formed on the outer circumference of the hollow portion at which both ends are opened, the coil unit being built in the main body and generating heat according to the application of power;
An adapter which is coupled to be inserted into one side of the hollow part of the coil unit and protrudes toward the front of the main body; And
A stud chuck screwed to the adapter and detachably gripped with a stud at a front end thereof;
The coil unit,
It characterized in that it comprises a coil unit housing for wrapping the remaining area except the hollow portion so that heat generated in the coil is not transmitted to the main body,
Stud welding gun. The method according to claim 1,
The coil unit housing, characterized in that made of a thermally conductive material,
Stud welding gun. The method according to claim 2,
The material of the coil unit housing, iron, non-ferrous metal having a thermal conductivity or a combination thereof, characterized in that
Stud welding gun. A gun type body for performing stud welding while the worker is gripped;
A coil unit formed on the outer circumference of the hollow portion at which both ends are opened, the coil unit being built in the main body and generating heat according to the application of power;
An adapter which is coupled to be inserted into one side of the hollow part of the coil unit and protrudes toward the front of the main body; And
A stud chuck screwed to the adapter and detachably gripped with a stud at a front end thereof;
According to the length of the stud, characterized in that it comprises a stud spacing adjusting unit for adjusting the distance between the stud chuck and the base material to which the stud is welded,
Stud welding gun. The method of claim 4,
The stud spacing unit,
A support bracket coupled to the front of the main body and having a pair of guide holes penetrated at both sides thereof;
A spacing adjuster coupled to the guide hole of the support bracket to be spaced apart according to the length of the stud; And
Characterized in that it comprises a fixing screw for fixing the gap adjusting portion to the support bracket,
Stud welding gun. The method according to claim 5,
The gap adjusting unit,
A pair of guide bars slidingly guided along guide holes of the support bracket at both sides of the main body; And
It is formed to interconnect the front end of the guide bar, characterized in that it comprises a positioning socket for positioning the stud at the welding position of the base material,
Stud welding gun. The method of claim 6,
In the positioning socket,
At least one positioning groove is formed on the outer circumference so as to confirm from the outside whether the stud is located at the welding position of the base material,
Stud welding gun. The method of claim 4,
The coil unit,
It characterized in that it comprises a coil unit housing for wrapping the remaining area except the hollow portion so that heat generated in the coil is not transmitted to the main body,
Stud welding gun. The method according to claim 8,
The coil unit housing, characterized in that made of a thermally conductive material,
Stud welding gun. The method of claim 9,
The material of the coil unit housing, iron, non-ferrous metal having a thermal conductivity or a combination thereof, characterized in that
Stud welding gun.

Images