KR20090122817A - Load jack - Google Patents

Abstract

PURPOSE: A load jack is provided to improve the economic efficiency and to reduce the construction period by being installed to be corresponded to the installation space by controlling the installing angle of a support unit. CONSTITUTION: A load jack(100) is composed of a housing(110), a length control shaft(120), and an actuating member(140). The housing has a space(111). An opening(112) is formed in the upper part of the housing to be connected to the space. The length control shaft is housed in the space of the housing and moves through the opening. The actuating member is combined to the length control shaft by screwing and varies the moving distance of the length control shaft by rotation.

Description

Load Jack

The present invention relates to a load jack for a construction structure, and more particularly, to a load jack to be able to vary the length of the support portion to be spaced apart, and to adjust the installation angle of the support portion.

In general, in the underground excavation work of the construction and civil works, the excavation method using a brace is widely used to prevent the collapse of the ground due to the excavation.

An example of the excavation method will be described with reference to FIG. 1, before excavating the ground, first install the retaining wall (1), excavate the ground, and then to the inner surface of the retaining wall (1) and the belt (2) and brace (3a) , 3b) to prevent ground collapse.

At this time, the axial force acts on the braces 3a and 3b by the earth pressure generated by the excavation, and by this axial force, the braces 3a and 3b are subjected to compressive deformation, and the compressive wall 1 is caused by this compression deformation. It is bent in the direction of the excavation part, and a load jack 4 is connected to reduce this bending deformation amount.

The load jack 4 includes an upper support plate 5 connected to the brace 3b with a bolt, a screw shaft formed in parallel with the braces 3a and 3b, a compression nut screwed to the screw shaft, and a compression A screw shaft insertion hole having a diameter smaller than the outer diameter of the nut, a support portion for supporting the screw shaft insertion hole, and a screw shaft inserted into the screw shaft insertion hole by a piston which protrudes from the cylinder by inserting the cylinder into the support portion, It is configured to be pushed out.

When the usage of the load jack 4 is explained, the cylinder is inserted into the support of the load jack 4, the hydraulic pump is connected to the cylinder, the hydraulic pump is operated to be inserted into the screw shaft insertion hole by the piston projecting from the cylinder. The length of the load jack 4 is increased by pushing the screw shaft out of the screw shaft insertion hole.

In addition, even if the cylinder is removed by rotating the engaged compression nut screwed to the screw shaft coupled to the upper support plate to the screw shaft insertion hole of the load jack, the length of the increased load jack is not reduced again.

In the conventional load jack, it can be supported only in a straight line, in the uneven installation space has to perform a very difficult task to correspond to the angle by cutting the brace, or to fill the grate, this has the problem that the construction period increases .

In addition, there is a problem that the entire load jack must be replaced by a structure that cannot be separated even if some parts are damaged.

Therefore, there is a need for improvement.

The present invention has been made to solve the above problems, the load jack is provided with an inclination between the support and the variable axis to adjust the installation angle of the support can be installed in response to the uneven installation space of the construction period It is an object to provide a load jack that improves shortening and economic efficiency.

In addition, it is an object of the present invention to provide a load jack to reduce the cost burden can be replaced only the parts damaged by the separable structure for each part.

In order to achieve the above object, the present invention provides a housing having an opening at an upper portion so as to communicate with the space and forming a space therein, and a variable length of the housing accommodated in the space of the housing to enter and exit through the opening. Screws coupled to the shaft and the longitudinal variable shaft provides a load jack comprising an operating member for varying the moving distance of the longitudinal variable shaft by rotation, and in contact with the housing to fix the position of the longitudinal variable shaft.

In addition, an inlet portion connected to the space portion is formed at a side of the housing, and a hydraulic cylinder is inserted into the space portion through the inlet portion.

The lower surface of the housing is characterized in that the insertion hole for inserting the variable length shaft is formed.

The variable length shaft is characterized in that it is not separated to the outside by the engaging portion in the housing.

The locking portion includes a locking jaw formed on an inner side surface of the housing, and a stopper protruding outward from one end of the variable length shaft so as to be caught by the locking jaw.

The front end of the variable length shaft is characterized in that the support portion for supporting the structure is provided.

In addition, an inclination part for adjusting an installation angle of the support part is provided between the variable length axis and the support part.

The inclined portion is provided with a rotating portion having a hemispherical rotating protrusion at an end portion of the variable-length shaft, and a receiving portion having a recessed groove formed in the support portion to insert the rotating protrusion of the rotating portion. .

The pivoting part is formed integrally by being joined to the tip of the variable length shaft by welding.

In addition, the pivoting portion of the pivoting portion is characterized in that the separation prevented by the separation prevention portion in the recessed groove of the receiving portion.

The separation prevention part is characterized in that the separation prevention jaw formed around the rotating part and the separation prevention jaw is formed by a separation prevention ring coupled to the upper surface of the receiving portion so that the rotation projection is not separated from the recessed groove.

In addition, the cross-sectional shape of the portion excluding the rotational projection of the rotating part is a polygonal shape, the cross-sectional shape of the release preventing ring is characterized in that the polygonal shape.

In addition, the inclined surface is formed on the inner surface of the release preventing ring.

According to the load jack according to the present invention as described above, it is possible to adjust the installation angle of the support by having an inclination portion in the variable length shaft, so that it can be installed in response to the uneven installation space, unnecessary work that needs to cut the brace or fill the dent It can reduce the construction period and economic effect.

In addition, the insertion hole is formed on the lower surface of the housing to improve the assembly of the variable length shaft, and can be replaced by only the parts broken by the structure that can be separated by each part, thereby reducing the cost.

In addition, there is an effect that the installation time is shortened by setting the interval in advance by the structure that draws the variable-length shaft directly from the housing and fixed to the operating member.

In addition, the cross section of the portion excluding the rotational projection of the rotational part is formed in a polygonal shape, and the separation prevention ring also has a polygonal shape to prevent the rotational projection from being rotated about the central axis in the recessed groove to accurately transmit the rotation of the operating member. It has the advantage of being variable.

Hereinafter, an embodiment of a load jack according to the present invention with reference to the accompanying drawings.

In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom.

Therefore, definitions of these terms should be made based on the contents throughout the specification.

On the other hand, for convenience of description, the same parts or structures as the conventional invention and the same parts use the same reference numerals or names.

2 is an exploded perspective view of a load jack according to an embodiment of the present invention, Figure 3 is a combined perspective view of the load jack according to an embodiment of the present invention, Figure 4 is a cross-sectional view of Figure 3 AA, Figure 5 4 is a cross-sectional view taken along line BB, and FIG. 6 is a state diagram of use of a load jack according to an embodiment of the present invention.

As shown, the load jack 110 according to the present embodiment has a housing 110 having an opening 112 in the upper portion to form a space 111 therein and communicate with the space 111, the housing ( The moving distance of the variable length shaft 120 is rotated by being screwed to the variable length shaft 120 and the length variable shaft 120 which are accommodated in the space 111 of the 110 and entered into and out through the opening 112. It is configured to include a working member 140 for varying the, and the position of the variable length shaft 120 in contact with the housing 110.

An inlet portion 114 connected to the space portion 111 is formed at the side of the housing 110, and a hydraulic cylinder (not shown) may be inserted into the space portion 111 through the inlet portion 114. .

In addition, an insertion hole 113 for inserting the variable length shaft 120 is formed at the bottom surface of the housing 110.

The variable length shaft 120 is not separated from the housing 110 by the locking portion 130 to the outside.

The locking portion 130 includes a locking jaw 132 formed on the inner surface of the housing 110 and a stopper 134 protruding outward from one end of the variable length shaft 120 to be caught by the locking jaw 132.

That is, the insertion hole 113 is formed to be wider than the area of the stopper 134 of the variable length shaft 120, the length variable shaft 120 is inserted into the lower portion of the housing 110, the stopper 134 is a locking jaw ( 132) to prevent the departure to the outside.

A thread 122 is formed around the length variable shaft 120, and the operation member 140 is screwed by forming a thread 142 on an inner side surface thereof so as to be engaged with the thread 122 of the variable length shaft 120. , The operating member 140 is moved on the variable length shaft 120 by the rotation, the operating member 140 is caught on the front end of the housing 110, so that the length of the lead length of the variable length shaft 120 in the housing 110 It will be fixed.

The operating member 140 may be formed with a handle 145 to facilitate rotation.

On the other hand, the front end of the variable-length shaft 120 is provided with a support 150 for supporting the structure.

The housing 110 and the support part 150 are formed with support plates 115 and 155 formed with coupling holes to be bolted in contact with the respective structures.

In addition, an inclination part 160 for adjusting an installation angle of the support part 150 is provided between the variable length shaft 120 and the support part 150.

The inclined portion 160 is provided at the front end of the variable length shaft 120 and has a hemispherical rotation protrusion 164 at the end and a rotation protrusion 164 of the rotation part 162 to be seated. It is formed in the support portion 150 is made of a receiving portion 165 having a recessed groove 167.

Rotating portion 162 is preferably formed integrally coupled to the tip of the variable-length shaft 120 by welding.

That is, the pivot 162 is formed with a fitting groove 163 into which the length variable shaft 120 is fitted, and the tip of the length variable shaft 120 is fitted into the fitting groove 163 and integrally formed by welding. will be.

The pivoting projection 164 of the pivoting portion 162 is prevented from being separated by the departure preventing portion 170 in the recessed groove 167 of the receiving portion 165.

The separation prevention part 170 is a receiving part 165 such that the separation prevention jaw 172 formed around the rotation part 162 and the separation prevention jaw 172 are caught and the rotation protrusion 164 is not separated from the recessed groove 167. It is made of a separation prevention ring 174 coupled to the upper surface of the.

The separation prevention ring 174 is divided into two, so that the assembly is easy.

In addition, the rotation protrusion 164 is not separated from the recessed groove 167 by the separation prevention ring 184 having a hole smaller than the area of the separation prevention jaw 172.

At this time, the cross-sectional shape of the portion excluding the pivoting protrusion 164 of the pivoting portion 162 is a polygonal shape, and the cross-sectional shape of the release preventing ring 174 is also a polygonal shape and rotates about the central axis of the pivoting portion 162. prevent.

As shown in Fig. 5, the cross-sectional shape may be a structure that prevents rotation as a polygon as well as a hexagon.

In addition, the inclined surface 176 is formed on the inner surface of the release preventing ring 174, so that the inclination change of the support 150 is possible.

That is, the inclined surface 176 is extended toward the outside to correspond to the change in the inclination of the support 150 around the variable length axis 120.

Hereinafter, the operation and effect of the load jack according to an embodiment of the present invention.

First, before excavating the ground, first install the retaining wall, excavate the ground, and then install the band (2) and braces (3) on the inner surface of the retaining wall to prevent the collapse of the ground, at this time, Install the load jack 100 between 2) and the brace 3.

Looking at the assembly of the load jack 100 first, after inserting the variable length shaft 120 through the insertion hole 113 formed in the lower surface of the housing 110, the operating member 140 on the variable length shaft 120. Screw in.

Then, the rotary part 162 is inserted into the tip of the variable length shaft 120, and then welded to form a single body.

The insertion hole 113 formed on the lower surface of the housing is formed wider than the stopper 134 of the variable length shaft 120 so that the variable length shaft 120 can be inserted into the space through the insertion hole 113 and the stopper 134. ) Is caught by the latching jaw 132 formed inside the housing 110, so as not to be separated outward through the opening 112, and is not separated through the insertion hole 113 by the coupling of the operation member 140.

Thereafter, the front end of the variable length shaft 120 is inserted into the fitting groove 163 of the rotating part 162 and then integrally formed by welding.

Coupling the pivoting portion 162 to the tip of the variable-length shaft 120 by welding is for increasing the size of the pivoting projection 164 to improve the supporting rigidity, and easy assembly of the operating member 140. To make it work.

Thereafter, the pivoting projection 164 of the pivoting portion 162 is seated in the recessed groove 167 of the accommodation portion 165.

After the rotation protrusion 164 is seated in the recessed groove 167 of the accommodation portion 165, the separation prevention ring 174 is coupled to the top surface of the accommodation portion 165, thereby completing the assembly of the load jack 100. .

The separation prevention ring 174 is divided into two, and is coupled to the top surface of the receiving portion 165 has the advantage of easy assembly.

In addition, each part constituting the load jack 100 has the advantage that only the corresponding parts can be replaced when the parts are damaged by the removable structure.

When the load jack 100 assembled as described above is applied between the strip 2 and the brace 3, first, the support plate 115 at the bottom of the housing 110 is connected to the brace 3, and the brace 3 ) Is transported by a crane or the like and the length-variable shaft 140 is pulled out of the housing 110 in the state of being inserted into the underground space to fasten the support plate of the support 150 to the belt 2.

At this time, when the strip 2 is formed to be inclined by an uneven inclination of the retaining wall, the turning projection 164 in contact with the recessed groove 167 of the receiving portion 165 is adjusted to a predetermined angle to change the length 120 ) Is maintained so that the support portion 150 is in close contact with the belt length (2) while being horizontal.

An inclined surface 176 is formed on an inner surface of the hole of the release preventing ring 174 so that the support 150 may be inclined at a predetermined angle.

If the length variable shaft 120 is set in advance such that the support 150 is adjacent to the belt 2 before the support 150 is fastened to the belt 2, the working time can be shortened.

In the above state, when the operating member 140 engaged on the variable length shaft 120 rotates, the operating member 140 is in contact with the front end of the housing 110 and rotates in contact with the operating member 140. The variable-length shaft 120 is drawn out from the inside of the housing 110 by a force to be moved by the threads 122 and 142 on the variable shaft 120 to press the belt 2 to be supported.

At this time, the cross section of the rotation unit 162 and the separation prevention ring 174 is in a state in which the polygon is engaged in multiple angles to prevent the rotation of the operating member 140 is rotated relative to the center of the variable length shaft 120 to rotate the projection 164 ) Is prevented from slipping in the recessed groove 167 has the advantage that the variable length force by the rotation of the operating member 140 is accurately transmitted.

And, the operating member 140 has a handle 145 is formed has the advantage of easy operation.

On the other hand, the housing 110 is connected to the brace 3, the support 150 is inserted into the hydraulic cylinder (not shown) through the inlet portion 114 of the housing 110 in a state connected to the belt (2) The length variable shaft 120 may be pushed by the hydraulic cylinder to pressurize the belt-length 2.

When the operating member 140 is rotated in the pressurized state with the hydraulic cylinder and tightened to the thread 122 formed around the length variable shaft 120 to be in contact with the tip of the housing 110, the operating member 140 is connected to the housing 110. Since it is in contact with the top surface of the length-variable shaft 120 does not move to support the load.

Thereafter, even if the hydraulic cylinder is removed, the length-variable shaft 120 is not moved by the operation member 140, so that the gap between the strip 2 and the brace 3 is not changed.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. Will understand.

Therefore, the true technical protection scope of the present invention will be defined by the claims below.

1 is a cross-sectional view showing a construction state of the excavation method using a conventional brace.

2 is an exploded perspective view of a load jack according to an embodiment of the present invention.

Figure 3 is a perspective view of the combination of the load jack according to an embodiment of the present invention.

4 is a cross-sectional view taken along line A-A of FIG.

5 is a cross-sectional view taken along line B-B in FIG.

Figure 6 is a state of use of the load jack according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

100: load jack 110: housing

111: space portion 112: opening

113: insertion hole 114: inlet

115, 155: support plate 120: variable length axis

130: locking portion 132: locking jaw

134: stopper 140: operating member

145: handle 150: support

160: inclined portion 162: rotating portion

163: fitting groove 164: rotation protrusion

165: receiving portion 167: recessed groove

170: departure prevention part 172: departure prevention jaw

174: release prevention ring 176: inclined surface

Claims (13)

A housing having a space therein and having an opening thereon to communicate with the space; A variable length shaft accommodated in the space of the housing and entering and exiting through the opening; And And a working member which is screwed to the length variable shaft to change a moving distance of the length variable shaft by rotation, and fixes the position of the length variable shaft in contact with the housing. The method of claim 1, An inlet portion connected to the space portion is formed on a side surface of the housing; A load jack, characterized in that the hydraulic cylinder is inserted into the space through the inlet portion. The method of claim 1, A load jack, characterized in that the lower end of the housing is formed with an insertion hole for inserting the variable length shaft. The method of claim 1, The length-variable shaft is a load jack, characterized in that is not separated to the outside by the engaging portion in the housing. The method of claim 4, wherein The locking portion and the locking step formed on the inner surface of the housing; A load jack, characterized in that consisting of a stopper protruding outward of one end of the variable length shaft to be caught by the locking jaw. The method of claim 1, A load jack, characterized in that the support portion for supporting the structure is provided at the front end of the variable length shaft. The method of claim 6, The load jack, characterized in that the inclination portion for adjusting the installation angle of the support portion is provided between the variable length axis and the support portion. The method of claim 7, wherein The inclined portion is provided with a rotating portion having a hemispherical rotating projection at the end portion is provided on the front end of the variable length axis; The load jack, characterized in that formed in the support portion to be inserted into the pivoting projection of the rotation part comprises a receiving portion having a recessed groove. The method of claim 8, The rotating part is a load jack, characterized in that formed integrally by welding to the front end of the variable length shaft. The method of claim 8, The rotational projection of the rotating part is a load jack, characterized in that to prevent the separation by the separation prevention portion in the recessed groove of the receiving portion. The method of claim 10, The separation prevention part and the separation prevention jaw formed around the rotating part; The load jack, characterized in that made of a separation prevention ring is coupled to the upper surface of the receiving portion so that the removal projection is caught and the pivoting projection is not separated from the recessed groove. The method of claim 11, The cross-sectional shape of the portion excluding the rotational projection of the rotational portion is polygonal; The cross section of the separation prevention ring is a load jack, characterized in that the polygonal shape. The method of claim 12, A load jack, characterized in that the inclined surface is formed on the inner surface of the separation prevention ring.

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