KR100909216B1 - Hydraulic-type holder for welding - Google Patents

Abstract

A hydraulic holder for welding is provided to prevent scratch on the bottom surface of an object during welding by handling with changes in the track of the object. A hydraulic holder for welding comprises a cylinder body(100) having a hydraulic chamber inside, a spool valve(500) installed in the hydraulic chamber, a movable holding member(40) which expands to outside when hydraulic pressure is supplied to the hydraulic chamber, a fixed holding member(60) which is protruded out of the cylinder body in the opposite side of the movable holding member, and a lifter for standing the cylinder body to be inclined to the ground. The movable and fixed holding members have teeth(41) of saw tooth shape on their ends.

Description

Hydraulic-type holder for welding}

The present invention relates to a hydraulic support for welding, and more particularly, to a welding hydraulic support for supporting a welding object during welding to prevent the deformation thereof. According to the present invention, the welding object deformed along the trajectory of the arc is compensated to compensate for the deformation trajectory so that the welding position can be made properly, and the scratch is minimized on the bottom surface where welding is performed in relation to the support. Be sure to

When welding the iron plate, such as the upright, the iron plate is subjected to thermal deformation, and thus the welding position may be different from the original intention. To prevent this, turnbuckles are commonly used. That is, to support the iron plate to which the turnbuckle is welded through the turnbuckle between the upright iron plate and the bottom surface to prevent the deformation.

In this case, however, the steel plate deforms in the trajectory of the arc, and the turnbuckle does not support it accordingly, so that the steel plate may deviate from its welding position at the joint surface, and the turnbuckle exerts a large force on the bottom surface. It can cause the same scratches. Such scratches may not be hidden even through painting, which may cause aesthetic problems.

Therefore, it is necessary to support the welded material at the time of welding that can support it in response to the deformation trajectory of the object during welding and can not cause a large scratch on the bottom surface. The present invention satisfies this request.

SUMMARY OF THE INVENTION An object of the present invention is to provide a support mechanism for a welded body during welding, which can support it in correspondence with the deformation trajectory of the object during welding and can prevent large scratches on its bottom surface.

According to the object of the present invention, the present invention is a cylinder body with a hydraulic chamber formed therein; A spool valve installed in the hydraulic chamber; Connected to the rod of the spool valve is a support member protruding to the outside of the cylinder body is formed with a plurality of teeth teeth at the end of the protruding direction, wherein the line connecting the ends of the plurality of teeth teeth A flow support member formed along an arc; A plurality of tooth-shaped teeth are formed at the end of the protruding direction as a supporting member protruding to the outside of the cylinder body from the opposite side of the flow supporting member, wherein the line connecting the ends of the plurality of tooth-shaped teeth is an arc Fixed support member is formed along the; At this time, the circular arc formed by the teeth of the plurality of teeth of the flow support member and the fixed support member is formed to be symmetrical to each other; It provides a hydraulic support for welding, characterized in that it comprises a three-wheel supporting the cylinder body to be formed to be inclined relative to the bottom surface.

In the present invention, it is preferable that a hydraulic nipple is formed in the cylinder body to receive hydraulic pressure from an external hydraulic pump.

In addition, the hydraulic chamber is preferably provided with a spring that repels the expansion of the spool valve rod.

The present invention can support this in response to the deformation trajectory of the object during welding and provides a hydraulic support during welding that can prevent a large scratch on the bottom surface.

Preferred embodiments of the present invention will now be described with reference to the accompanying drawings.

1 is a perspective view of a hydraulic support for welding 1000 in accordance with an embodiment of the present invention, Figure 2 is a cross-sectional view of the interior thereof is shown excluding the upright 10.

1 and 2, the welding hydraulic support 1000 according to a preferred embodiment of the present invention has a cylinder body 100 is formed with a hydraulic chamber 300 therein.

The spool valve 500 is installed in the hydraulic chamber 300 inside the cylinder body 100. One side surface of the cylinder body 100 is formed with a flow path 180 is in communication with the outside and a hydraulic nipple (80) is provided with respect to the flow path 180, as shown.

Accordingly, the coupler (not shown) installed at the end of the hose of the hydraulic pump (not shown) may be coupled to the nipple 80 to supply hydraulic pressure from the hydraulic pump to the hydraulic chamber 300, in which case, the spool The valve 500 is moved to the left based on the drawing.

In the present embodiment, the cylinder body 100 is divided into two parts 110 and 130, which are coupled to each other by a screw 1310.

The spool of the spool valve 500 is provided with a ring 470 around its outer circumference.

The left side of the cylinder body 100 is open to the rod 540 of the spool valve 500 is projected to the outside, the flow support member 40 is coupled to the rod 540. In the present embodiment, the bag 48 of the flow support member 40 is coupled to the inside of the rod 540 is coupled.

A cavity 350 is formed on the flow path 180 side of the spool valve 500 and coupled to the inside of the cylinder body 100 through a bolt 430 on the right side of the drawing in the cavity 350. A first spring support member 410 is installed, and a second spring support member 420 coupled to the rod 540 of the spool valve 500 is installed on the left side of the first spring support member 410. A spring 88 is provided over these spring support members 410 and 420.

Accordingly, when the spool valve 500 moves to the left side, the spring 88 extends to the left side and accumulates the repulsive force.

When the hydraulic pressure is supplied from the hydraulic pump through the nipple 80, the supplied hydraulic pressure is introduced into the hydraulic chamber 300 along the flow path 180 to push the spool valve 500 to the left to the flow support member ( 40) moves to the left in the drawing. On the contrary, when the hydraulic pressure is drawn out to the hydraulic pump via the nipple 80 along the flow path 180, the flow supporting member 40 moves to the right by the repulsive force of the spring 88 and returns to its original position. do.

According to the present invention, a plurality of teeth 41 in the form of a plurality of teeth in the direction in which the flow support member 40 is projected to the outside is formed, the end of the plurality of teeth 41 A line is formed along the arc.

That is, referring to Figure 2, the line connecting the end of the toothed teeth 41 of the flow support member 40 is formed along the same radius (R1) to form an arc (S1).

The fixed support member 60 protrudes from the cylinder body 100 on the opposite side of the flow support member 40. In the present embodiment, the fixed support member 60 is inserted into the side of the cylinder body 100 is fixedly coupled.

A plurality of toothed teeth 61 are formed at the end of the fixed support member 60 in the protruding direction, and at this time, a line connecting the ends of the plurality of toothed teeth 61 is formed along an arc. do. That is, referring to Figure 2, the line connecting the end of the toothed teeth 61 of the fixed support member 60 is formed along the same radius (R2) to form an arc (S2).

At this time, the circular arc (S1) (S2) formed by a plurality of tooth-shaped teeth 41, 61 of the flow support member 40 and the fixed support member 60 is formed to be symmetrical to each other.

The lower side of the cylinder body 100 is provided with a support table 10 for supporting the cylinder body 100 to be formed to be inclined relative to the bottom surface.

Referring to Figure 3, it will be described the operation of the hydraulic support for welding 1000 according to an embodiment of the present invention.

First, an iron plate 900 is interposed between the ceiling surface T and the bottom surface B, and the welding hydraulic support 1000 is located between the upright iron plate 900 and the bottom surface B of the cylinder. Body 100 is installed in an inclined form, the hydraulic pump (not shown) is connected through the nipple (80). That is, the coupler of the hose end of the hydraulic pump is introduced into the nipple 80 is coupled.

In this situation, the welding is made at point A on the ceiling surface T.

In this case, the iron plate 900 is caused to deform so as to turn along the direction of D1 due to heat at the time of welding based on the point A, wherein the hydraulic pressure is supplied to the welding hydraulic support 1000 to support the flow. The member 40 moves toward the bottom surface B, whereby the fixed support member 40 also moves toward the iron plate 900. (FIG. 3A)

In this case, the toothed line of the flow support member 40 and the fixed support member 60 has a form of circular arcs (S1) (S2) symmetrical to each other, the flow support member 40 As the toothed teeth of 41 are sequentially stuck to the bottom surface B along the circular arc S1, the fixed support member 60 has the toothed teeth 61 of the toothed shape in sequence. Accordingly, the iron plate 900 is pushed out. (B) of FIG. 3B, the trajectory of the toothed teeth 61 of the fixed support member 60 pushing the iron plate is along the opposite direction D2 in the direction of the D1, corresponding to or significantly approximating the original deformation. As a result, the iron plate 900 is returned to its original position.

Then, the welding to the point (B) of the bottom surface with respect to the iron plate 900 is in this position.

As described above, when the hydraulic support for welding 1000 according to the present invention supports the iron plate 900 to be welded, etc., the toothed teeth 41 of the flow supporting member 400 have the bottom surface B thereof. The scratches generated at this time are very good compared to the degree of grooving when using a conventional turnbuckle, and can be prevented from being exposed through painting.

4 shows a case in which the hand pump 5000 is mounted on the welding hydraulic support 1000 according to the present invention.

In this case, when the hand 944 of the hand pump 5000 is moved up and down, the pumping piston 900 repeatedly causes vertical movement. Accordingly, check valves 910 and 930 at both sides of the bottom of the pumping piston 900 are The oil pressure of the oil tank 980 is alternately opened and closed, and the oil pressure is supplied to the hydraulic chamber 300 inside the cylinder 100 through the flow path 180.

As described above, according to the present invention, it is possible to support the deformation trajectory of the object during welding, and to provide a support mechanism for the weldment during welding, which can prevent large scratches on the bottom surface thereof.

It will be appreciated that this has been achieved the object of the present invention. Although the present invention has been described with reference to the examples, the scope of the present invention is not limited thereto.

1 is a perspective view of a hydraulic support for welding according to an embodiment of the present invention;

2 is a cross-sectional view showing the inside of the hydraulic support for welding according to an embodiment of the present invention;

3 is a view showing the operation of the hydraulic support for welding according to an embodiment of the present invention;

4 is a view showing a hand pump mounted on the hydraulic support for welding according to the present invention.

Claims (3)

(a) a cylinder body having a hydraulic chamber formed therein; (b) a spool valve installed in the hydraulic chamber; (c) a flow support member connected to the rod of the spool valve and protruding out of the cylinder body and expanding outward when hydraulic pressure is supplied to the hydraulic chamber of the cylinder body; A plurality of tooth-shaped teeth are formed at the end of the protruding direction of the flow supporting member, wherein a line connecting the ends of the plurality of tooth-shaped teeth is formed along an arc; (d) a plurality of tooth-shaped teeth formed at the end of the protruding direction as a support member protruding to the outside of the cylinder body from the opposite side of the flow supporting member, wherein the teeth of the plurality of tooth-shaped teeth A line includes a fixed support member formed along an arc; At this time, the circular arc formed by the teeth of the plurality of teeth of the flow support member and the fixed support member is formed to be symmetrical to each other; (e) a hydraulic support for welding, characterized in that it comprises a erum which is erected to be inclined relative to the bottom of the cylinder body. The method of claim 1, Hydraulic cylinder is formed in the cylinder body is a hydraulic support for welding, characterized in that the hydraulic pressure is supplied from the external hydraulic pump. The method according to claim 1 or 2, The hydraulic support for welding, characterized in that the spring is installed in the hydraulic chamber to repel the expansion of the spool valve rod.

Images