KR200414107Y1 - A pre-loading jack - Google Patents

Abstract

The present invention enhances the stability of the earth wall by applying sufficient preceding load to the earth wall by using struts and hydraulic jacks during the ground excavation. Provides a preloading jack to avoid receiving.

Preloading jack, connecting jack, earth wall, strut

Description

A pre-loading jack}

1 is a perspective view showing a general method of using the struts and connecting jacks used to support the earth wall to prevent the collapse of the surrounding ground during ground excavation.

Figure 2 is a cross-sectional view of the use state of the support jack according to the prior art.

3 and 4 are side and partial side cross-sectional views of the preloading jack according to an embodiment of the present invention.

5 to 7 is an operation state diagram of the preloading jack according to an embodiment of the present invention.

The present invention relates to a preloading jack, and more particularly to a preloading jack used with the strut to support the earth wall installed for the purpose of preventing the collapse of the surrounding ground during excavation.

In general, the earth wall is a wall formed by forming a vertical steel along the boundary line of the ground to be excavated, and when the ground is excavated, in order to suppress the displacement of the vertical steel due to the earth pressure caused by the excavation, it is necessary to connect the strut with a predetermined depth The jack is used to support the vertical steel.

The construction method of the earth wall will be described briefly with reference to FIG. 1 as follows.

First, the earth wall is installed by type vertical steel 3 along the excavation interface with the ground 1 as shown in the figure, and then excavates the ground. After the excavation of the ground to a certain depth, the horizontal steel (7) acting as a band in the transverse direction to the vertical steel (5) to which each earth plate (5) is assembled, and between each horizontal steel (7) screw for connecting jack A strut 11 having a jack 9 is installed to support the horizontal steel 7.

As described above, when the installation of the strut 11 is completed, by rotating the screw portion of the screw jack 9 to loosen itself in the longitudinal direction to lengthen the length of both ends of the strut 11 to support the horizontal steel (7) It is to act to suppress the displacement of the earth wall.

Here, although the screw jack 9 is applied to the connecting jack for connecting the strut 11, in order to overcome the structural limitations of the screw jack 9 itself that it is not possible to apply a sufficient load to the earth wall. In this case, as shown in FIG. 2, a brace jack 13 is developed and used.

The brace jack 13 is brace type through the hydraulic jack 15 which is operated by hydraulic pressure so that the strut 11 maintains the bearing force against the horizontal steel 7 in the process of installing the strut 11 on the earth wall. By easily increasing the length of the jack 13 itself, a greater load than before has been applied to the strut 11 to achieve a stable support of the earth wall.

However, this type of support jack 13 has the advantage of increasing the stability of the earth wall by applying sufficient preceding load to the earth wall, but can be increased to the hydraulic jack 15 when using a small stroke hydraulic jack (15) As the length of the brace jack 13 becomes smaller, the length of the brace jack 13 must be increased considerably in the case of a large gap between the strut 11 and the horizontal steel 7 or to apply a considerable amount of preload to the earth wall. If there is a need to do so, there is a problem that its use is limited.

Therefore, the present invention is designed to solve the above problems, the object of the present invention is to increase the stability of the earth wall by applying sufficient preceding load to the earth wall by using struts and hydraulic jacks during ground excavation, while adjusting the shaft inside The additional configuration is to provide a preloading jack so that the length of the jack itself can be sufficiently extended so that it is not restricted in use.

The preloading jack of the present invention for realizing the above object comprises a guide housing for forming a space part so that the hydraulic jack is installed therein, and on one side an opening for installing the hydraulic jack; A cylindrical adjustment shaft inserted into one of the guide housings into a space, an outer thread formed in an entire outer circumferential surface thereof, and an inner thread formed in one inner circumferential surface; A stop nut engaged with an external thread formed on an outer circumferential surface of the adjustment shaft; A flange portion is formed at one end, and an extension thread is formed at all the outer circumferential surfaces, and is connected to the inner thread while being fitted inside the adjustment shaft.

The guide housing is characterized in that the flange is formed integrally on the side opposite to the control shaft is installed.

The internal thread formed on the adjustment shaft is characterized in that only one section is formed on the outer end of the inner peripheral surface of the adjustment shaft.

The stop nut is characterized in that the plurality of nut handles are integrally formed along the outer peripheral surface.

The connecting housing is characterized in that the inside is formed of a hollow portion penetrated along the axial direction.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be more clearly described.

3 and 4 are side and partial side cross-sectional views of the preloading jack according to an embodiment of the present invention.

However, in the description of the configuration of the present invention, the same components and the same reference numerals will be described for the same components of the general components for the description of the prior art.

The configuration of the preloading jack 21 according to the embodiment of the present invention is provided with a guide housing 25 forming a space 23 so that the hydraulic jack 15 is installed therein.

The guide housing 25 forms an opening 27 for installing the hydraulic jack 15 on one side thereof, and the space 23 has a circular shape.

The guide housing 25 has a circular opening 29 formed in one side thereof so that the adjustment shaft 31 can be inserted into the space 23 through the guide housing 25.

The regulating shaft 31 forms an outer thread 33 over the entire outer circumferential surface thereof, and has a cylindrical shape forming an inner thread 35 on one inner circumferential surface thereof.

Here, the guide housing 25 integrally forms a flange portion 37 for connecting with a strut (not shown) on the opposite side where the control shaft 31 is installed.

In addition, it is preferable that the internal thread 35 formed on the adjustment shaft 31 is formed at only one section of 1/2 or less with respect to the whole section on the outer tip side of the inner circumferential surface of the adjustment shaft 31.

In addition, a stop nut 39 having a thread 43 formed on an inner circumferential surface of the outer thread 33 formed on the outer circumferential surface of the adjustment shaft 31 is engaged. Here, the stop nut 39 is preferably formed by integrally protruding at least two nut handles 41 along the outer circumferential surface thereof, but about four will be appropriate.

In addition, the inside of the adjustment shaft 31 is fitted with a connection housing 45 from the outside, the connection housing 45 is connected to one side of the other strut (not shown) or horizontal steel (not shown) at its end A flange portion 47 is formed, and an extension thread 49 is formed in the entire outer circumferential surface thereof, and is engaged with the internal thread 35 of the adjustment shaft 31.

The connection housing 45 is preferably formed as a hollow portion penetrated therein along the axial direction.

The operation of the preloading jack 21 having the configuration as described above will be described in more detail with reference to FIGS. 5 to 7 as follows.

That is, the preloading jack 21 is the strut 11 and the horizontal steel (7) in the process of installing the strut 11 in the horizontal steel (7) arranged horizontally to support the vertical steel (3) of the earth wall By extending the length by the hydraulic jack 15 to provide the axial leading load.

First, as shown in FIG. 5, for example, the flange portion 37 formed in the guide housing 25 of the preloading jack 21 is connected to the strut 11 and the flange portion of the connection housing 45. 47 is driven to expand the hydraulic jack 15 in the space 23 of the guide housing 25 in order to provide a preceding load to the horizontal steel (7) in a state connected to one side of the horizontal steel (7) Let's do it.

Then, the actuating rod of the hydraulic jack 15 pushes the adjustment shaft 31 outward with respect to the guide housing 25 to move in the axial direction, and the connecting housing 45 meshes with the adjustment shaft 31. Pushes the horizontal steel (7) to apply the preceding load to the vertical steel (3) side.

Thus, in order to fix the preloading jack 21 which applies the preceding load to the vertical steel 3 by the hydraulic jack 15 in that state, as shown in FIG. 6, the stop nut 39 is guide housing. Loosen to (25) side so that one side of the stop nut 39 is in contact with one end of the guide housing 25.

That is, the stop nut 39 is engaged with an external thread 33 formed on the outer circumferential surface of the adjusting shaft 31, thereby limiting the axial movement of the adjusting shaft 31 with respect to the guide housing 25. Done.

On the other hand, as described above, the stroke of the hydraulic jack 15 is small, while the clearance between the strut 11 and the horizontal steel 7 is large, so that the length of the jack needs to be increased considerably in order to apply a considerable amount of preload to the earth wall. In this case, as shown in FIG. 7, by releasing the connecting housing 45 engaged with the regulating shaft 31 in the axial direction and increasing the length thereof, it is possible to respond.

That is, the connection housing with respect to the adjustment shaft 31 by the length of the required degree by using the engagement relationship of the connection housing 45 engaged with the internal thread 35 of the adjustment shaft 31 through the extension thread 49. After releasing the 45 to secure the length, the adjustment shaft 31 is operated by using the hydraulic jack 15 to provide the preceding load to the vertical steel 3.

According to the preloading jack according to the present invention as described above, when the ground excavation, by applying a sufficient preceding load to the earth wall using the struts and hydraulic jacks to increase the stability of the earth wall, and at the same time additionally configure the adjustment shaft inside the jack itself It is effective to allow the length of to be sufficiently extended so as not to be restricted in use.

In particular, when a hydraulic stroke with a small stroke is used, the length of the jack that can be increased by the hydraulic jack is reduced, whereas in case of a large gap between the strut and the horizontal steel, or to apply a considerable amount of preload to the earth wall, This is useful when there is a need to increase the length considerably, and thus it is convenient for work such as supporting soil loads and the load of the structure, and there is an effect that the work can proceed quickly.

Claims (5)

In the preloading jack, A guide housing configured to form a space in which the hydraulic jack is installed, and an opening formed at one side of the hydraulic jack; A cylindrical adjustment shaft inserted into one of the guide housings into a space, an outer thread formed in an entire outer circumferential surface thereof, and an inner thread formed in one inner circumferential surface; A stop nut engaged with an external thread formed on an outer circumferential surface of the adjustment shaft; And a connection housing having a flange formed at one end thereof, and having an extended thread formed at an entire outer circumferential surface thereof, the connecting housing being engaged with the internal thread while being fitted inside the adjustment shaft. The method of claim 1, The guide housing The preloading jack, characterized in that to form a flange portion on the opposite side to which the control shaft is installed. The method of claim 1, The internal thread formed in the adjustment shaft is a preloading jack, characterized in that only one section is formed on the outer end of the inner peripheral surface of the adjustment shaft. The method of claim 1, The stop nut is a preloading jack, characterized in that the plurality of nut handles are integrally formed along the outer peripheral surface. The method of claim 1, The connecting housing is a preloading jack, characterized in that the inside is formed of a hollow portion penetrated along the axial direction.

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