KR200356951Y1 - plastic drain boerd - Google Patents

Abstract

The present invention is to provide a soft ground drainage device that operates the lifting movement of the casing as a single driving device and also has a separate pressurizing means for operating the casing to reduce the bending fatigue of the wire and to easily cope with irregular stratum changes. As the configuration, the guide support is installed vertically on the crane, the casing supported by the guide support and the paper is inserted and attached to the casing, the wire is connected to the drive device and the wire to move the casing up and down In the soft ground drainage device consisting of a holder, the guide support to the bracket to move up and down by the operation of the cylinder, the clamping cylinder supported by the bracket and the movement of the clamping cylinder before and after the clamping the casing The pressurization device made of a clamp is installed Shall be.

Description

Soft ground drainage {plastic drain boerd}

The present invention relates to a soft ground drainage system, and in particular, the lifting movement of the casing as a single drive device, and also provided with a separate pressing means for operating the casing to reduce the bending fatigue of the wire and to easily respond to irregular stratum changes. To soft ground drainage.

As well known, the soft ground drainage device is a device designed to discharge the soft ground moisture by injecting a paper made of a fiber material having a core of synthetic resin into the soft ground so that the moisture present in the soft ground is impregnated with the paper. .

That is, the soft ground drainage device includes a guide support fixedly mounted on a crane vertically, a casing having a through hole supported by the guide support and into which a paper is inserted, and attached to the casing, and a drive device and a wire. The bar is made of a wire holder connected to move the casing up and down, since the structure of the conventional soft ground drainage device is already known, the detailed description thereof will be omitted, and the above-described prior art is Korea It is described in detail in Korean Utility Model Publication No. 0180865 (name: soft ground drainage device) (hereinafter referred to as prior art).

The prior art is to install the wire at the point coinciding with the center line of the casing to prevent the eccentricity back and forth during the lifting operation of the casing to improve the durability of the device, the expansion of the wire in accordance with the long time driving It is characterized by the fact that the tension can be easily adjusted, and a pair of wire drums, which are driving means, is installed at the left and right sides of the casing to ensure operational reliability.

However, the following problems are raised in the above prior art.

First, as mentioned above, the hydraulic motor, which is a driving means for operating the casing, and a pair of wire drums, have a problem of increasing the production cost of the apparatus by installing a plurality of left and right (or up and down) components. In addition, the wire, which is a means for connecting the casing and the driving means, is configured to pass through a plurality of guide rollers installed in the guide support, resulting in extreme bending fatigue of the wire due to long time use. By requiring replacement work, the work efficiency was significantly reduced.

In particular, since the casing does not have a separate pressing means other than the driving means, when it encounters an irregular strata (ie, rocks present in the soft ground) during the press-fitting of the casing into the soft ground, the casing cannot effectively cope with it. There was a problem that can not press the casing to the desired depth.

Therefore, an object of the present invention for solving the problems as described above is to provide a soft ground drainage device that can be expected to reduce the production cost by operating the casing as one drive means.

Another object of the present invention is to provide a soft ground drainage device capable of preventing the bending fatigue of the wire by minimizing the number of wire rollers through which the wire, which is the means for connecting the casing and the driving means.

Still another object of the present invention is to provide a soft ground drainage device capable of minimizing work time due to wire replacement by connecting the wire to one driving means.

Still another object of the present invention is to provide a soft ground drainage device which can install a separate pressurizing device to effectively press the casing into irregular strata, thereby improving the reliability of the operation.

Another object of the present invention is to provide a soft ground drainage device that can effectively control the tension generated in the wire.

Another object of the present invention is to provide a soft ground drainage device that can prevent the slip phenomenon of the wire during the winding process by forming a spiral recess groove on the outer peripheral surface of the wire drum.

The present invention for achieving the above object is a guide support which is installed vertically on the crane, the casing is supported by the guide support and the paper is inserted and the casing is attached to the casing connected to the drive device and the casing In the soft ground drainage device consisting of a wire holder for moving up and down, the guide support is characterized in that it is provided with a pressing device for assisting the indentation of the casing.

1 is a view showing a soft ground drainage device installed in the crane according to an embodiment of the present invention.

Figure 2 is a front view showing the structure of the soft ground drainage shown in FIG.

3 is a view showing in detail the connection structure between the wire and the driving means for raising and lowering the casing shown in FIG.

Figure 4 is a view showing in more detail the structure of the pressing device installed on the lower end of the soft ground drainage shown in FIG.

5 is a view taken along the line A-A of FIG.

6a and 6b sequentially show the operating state of the pressing device shown in FIG.

<Description of the symbols for the main parts of the drawings>

10: guide support 12: casing

14: Casing Guide 16: Paper

18: wire holder 20: wire

22: drive device 24: hydraulic motor

26: wire drum 28: first wire roller

30: second wire roller 32: third wire roller

34: wire tensioning cylinder 38: pressurizing device

40: cylinder 44: clamping cylinder

46: clamp 100: soft ground drainage

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. First, the following detailed description will present one exemplary embodiment in the present invention to achieve the above technical problem. And other embodiments that can be presented in the present invention is replaced by the description in the configuration of the present invention.

1 is a view showing the configuration of the soft ground drainage device of the present invention. In the drawing, the casing operating up and down operates as a single driving device, and by installing a separate pressurizing device in the casing, the casing is not only reduced in production cost but also desired in the irregular stratum change occurring in the working process. We propose a soft ground drainage system that can effectively indent depth. Here, the pressurizing device is a means for assisting the press-in of the casing. When the casing being pressurized into the soft ground by the pressure of the hydraulic pressure of the drive device encounters an irregular stratification during the press-in process, it is impossible to press-fit further by the power of the drive device. By means of forcing the casing by using the pressurizing device refers to a device that can press the casing to the desired depth depth. On the other hand, the configuration of such a soft ground drainage device will be easily understood by the following detailed description.

Referring to FIG. 1, the soft ground drainage device 100 of the present invention has an appearance as a guide support 10 fixedly mounted vertically on a crane k. A casing guide 14 is attached to the front surface of the guide support 10, and the casing guide 14 has a casing 12 for press-ining the paper 16, which is a means for moistening moisture in the soft ground, into the soft ground. This is installed so as to move up and down. Here, the casing 12 has a structure in which a through hole 12a for inserting the paper 16 is formed in an approximately rectangular or rhombic shape. In addition, a wire holder 18 is attached to the upper end of the casing 12, and the wire holder 18 is a single wire which rotates forward and backward by the operation of one driving device 22, preferably a hydraulic motor 24. The drum 26 and the wire 20 are configured to move the casing 12 up and down. On the other hand, the connection structure of the wire 20 connecting the wire holder 18 and the driving device 22 will be easily understood by FIG. 2 and FIG.

As shown in FIG. 2 and FIG. 3, the wire 20 connected to the wire drum 26, which is a structure of the wire holder 18 and the driving device 22, is formed of the guide support 10. 1, 2, 3 wire rollers (28, 30, 32) via. That is, one end of the wire 20 is fixedly coupled to the upper side of the wire holder 18, and the other end of the wire 20 passes through the first and second wire rollers 28 and 30 sequentially. After being wound on (26), the wire 20 is fixed to the lower side of the wire holder 18 via the third wire roller 32 located at the lowermost end. Thus, the wire 20 is first, second, and third wire. The wire holder 18 is rotated by the wire drum 26 by being connected to the rollers 28, 30, 32 and the wire drum 26 in an endless manner so as to be coupled to the upper and lower sides of the wire holder 18, respectively. As a result, the casing 12 can be easily moved up and down. Here, the wire holder 8 can be expected to reduce the production cost of the device as compared to the prior art as it can be operated by a single drive device 22 as mentioned above, and also the wire through the wire 20 By minimizing the number of rollers (28, 30, 32) also it is possible to reduce the work time due to the replacement of the wire (20). Meanwhile, as shown in FIG. 2, it is preferable to install a plurality of wires 20 with the wire holders 18 interposed therebetween, which reduces the pressure transmitted to the wires 20 during the operation. To give. In addition, the outer circumferential surface of the wire drum 26 is preferably formed by forming a spiral concave groove 26a, which is to prevent the phenomenon of slipping of the wire 20 wound on the wire drum 26.

On the other hand, the third wire roller 32 located at the bottom of the first, second, third wire rollers (28, 30, 32) in the wire tension control cylinder for adjusting the expansion force of the wire 20 in accordance with long-term use ( 34) is installed and configured. That is, the copper plate 36 is coupled to the rod of the wire tension control cylinder 34, and the third wire roller 32 is installed by installing the third wire roller 32 on the copper plate 36. The wire tension control cylinder 34 is moved up and down according to the operation of the wire, so that the wire 20 via the third wire roller 32 is effectively compensated by the expanded length as necessary, the wire 20 ) Tension can be adjusted.

On the other hand, the soft ground drainage device 100 having the structure as described above, preferably the lower end of the casing 12 constituting the soft ground drainage device 100 is pressurized for operating the casing 12 separately As the device 38 is installed, the detailed structure of this pressurization device 38 will be readily understood by FIGS. 4 and 5.

As shown in FIG. 4 and FIG. 5, the pressurizing device 38 is installed at the lower end of the guide support 10 and has a plurality of cylinders 40 installed between the casing 12 and the cylinders ( It is coupled to the rod of 40 to operate the upper and lower brackets 42, the plurality of clamping cylinders 44 and the rods of the clamping cylinders 44 supported on the brackets 42 to move forward and backward And a clamp 46 clamping both sides of the casing 12.

That is, the pressurization device 38 having such a structure is the cylinder 40 when no further indentation work is possible due to the irregular layer of the casing 12 being pressurized into the soft ground by the hydraulic pressure of the driving device 22 described above. By being forced by the force of the force to effectively respond to the irregular stratum and the operator can effectively press the casing 12 to the desired depth, the operation of the pressurizing device 38 is described in more detail in the operation state to be described later It will be described.

Hereinafter, the operating state of the soft ground drainage device configured as described above will be described.

First, when the paper 16 is inserted into the casing 12 into the soft ground, the wire drum 26 is rotated by operating the hydraulic motor 24 that is the driving device 22. 26 and the wires 20 connected to the first, second, and third wire rollers 28, 30, and 32 in an orbital manner move, and thus the wire holders 18 connected to the wires 20. ) Is lowered to press the casing 12 into the soft ground.

Thereafter, after the casing 12 is press-fitted over the proper depth, the hydraulic motor 24 rotates the wire drum 26 in the reverse direction to raise the casing 12. At this time, the casing 12 is raised while leaving the paper 16 inserted in the casing 12 in the process of ascending, so that the paper 16 is moistened with moisture in the pressed state in the soft ground. will be.

On the other hand, when no further indentation is possible due to the irregular stratum in the indentation process of the casing 12, by turning off the drive device 22 and operating a separate pressurization device 38 installed in the guide support 10 The casing 12 is forcibly pressed.

That is, when the clamping cylinder 44 is operated as shown in FIGS. 6A and 6B, the clamp 46 coupled to the rod of the clamping cylinder 44 moves forward to clamp both sides of the casing 12. do. Thereafter, when the bracket 42 on which the clamping cylinder 44 is supported is lowered by the operation of the cylinder 40, the casing 12 is operated by the cylinder 40 while being clamped to the clamp 46. As it descends and is forced to penetrate the irregular strata with high pressure, the operator can press the casing 12 to the desired depth.

As described above, the present invention has the effect of improving the reliability of the work by installing a pressurizing device capable of forcibly press-fitting the casing indented into the soft ground to effectively press the irregular ground.

In addition, by operating the casing as a single driving device, there is an effect of improving productivity by reducing the production cost of the device. In addition, by minimizing the number of wire rollers through which the wire, which is a means for connecting the casing and the driving means, can prevent the wire fatigue fatigue phenomenon to extend the life of the wire and minimize the work time due to the wire replacement work. There is an advantage. Finally, the wire tensioning cylinder has a synergistic effect that can effectively control the tension generated in the wire.

Claims (4)

A guide support 10 installed vertically on the crane k, a casing 12 supported by the guide support 10 and into which the paper 16 is inserted, and a casing 12 attached to the casing 12, and a driving device ( In the soft ground drainage device consisting of a wire holder 18, which is connected to the wire 22 and the wire 20 to move the casing 12 up and down, The guide support (10) is a soft ground drainage device, characterized in that it is provided with a pressurizing device (38) for assisting the press-in of the casing (12). The method of claim 1, wherein the pressurizing device (38); Bracket 42 which moves up and down by the operation of the cylinder 40; Soft ground drainage device, characterized in that consisting of a clamping cylinder 44 supported by the bracket 42 and the clamp 46 to move the front and rear by the operation of the clamping cylinder 44 and clamp the casing 12 . The soft ground drainage device according to claim 1 or 2, wherein the wire holder (18) is connected to one driving device (22) and a wire (20). 4. The first, second, and third wire rollers 28, 30, and 32 of claim 3, wherein the guide support 10 has a wire 20 for connecting the wire holder 18 and the driving device 22 to each other. ) Is installed, the third wire roller 32 is a soft ground drainage device, characterized in that the wire tension control cylinder 34 for adjusting the tension of the wire 20 is included.