KR200454341Y1 - Wetland work equipment for heavy equipment - Google Patents

Abstract

The present invention relates to a wetland working apparatus for heavy equipment, and more particularly, the overlapping protrusions protruding from the inclined surfaces bent on both sides of the upper plate so that heavy equipment does not fall out when working, the overlapping protrusions are installed without opening the panel. The present invention relates to a wetland working apparatus for heavy equipment that can maintain or provide stable installation positions so that upper and lower protrusions are formed on the overlapping chip protrusions so that the upper plates are overlapped and separated.
In the present invention, in the wetland working apparatus for heavy equipment consisting of a panel 10 having the upper plate 11 to form the inclined surface 12 on both sides and installed the reinforcing table 20 and the reinforcing bending plate 21 at the lower side,
Overlapping protrusions 13 and 13a protruding from the end of the inclined surface 12 are formed, and fixing holes 17 are formed in the four directions of the upper plate 11, and the panel 10 is installed to both sides. It is characterized in that to install the connecting device 30, the coupling ring 18 is coupled to the fixing hole 17.

Description

Wetland work equipment for heavy equipment {Structure for swampy land work of heavy equipment}

The present invention relates to a wetland working device for heavy equipment, and more particularly, the overlapping protrusions protruding from the inclined surfaces bent on both sides of the upper plate so that heavy equipment does not fall out when working up to overlap the panel is installed without opening The present invention relates to a wetland working apparatus for heavy equipment that can maintain or provide stable installation positions so that upper and lower protrusions are formed on the overlapping chip protrusions so that the upper plates are overlapped and separated.

In general, heavy vehicles are heavy, so when you work in wetlands and wetlands, the track will fall into the ground, making work impossible.

In the case of wetland work using conventional heavy equipment and agricultural machinery to perform the operation using a tracked structure.

Then, even if the ground plane of the ground has a larger structure than the general heavy equipment, it is easy to fall out, making the work difficult, and in severe cases, the heavy equipment does not escape and has to be discarded as it is.

In order to prevent such drawbacks, the proposed utility model publication No. 2094-121 (January 10, 1994) provided a blade driven by a track shoe or a hydraulic cylinder to one side of an endless track.

However, when the track shoe or blade is installed, it is possible to work in a place that does not fall deep, such as a wetland or paddy field, but in a freshwater facility or a beach wetland, the wetland has a deep depth, making it impossible to work.

In addition, Utility Model Publication No. 1995-1114 (Announcement on February 23, 1995) attaches wetland work equipment that can be contracted and expanded by air pressure on the bottom of heavy equipment, and expands it by injecting air to expand wetland and wetland work. If not, the air is discharged to shrink to the bottom of heavy equipment, so that it can respond appropriately according to the working environment.

However, in the case of using a wetland work device that can be contracted and expanded by air pressure, it is possible to work around the wetland work device, but there is a disadvantage that it cannot move while widening the working radius while the heavy equipment moves.

In addition, in order to be able to work in wetlands and wetlands in general, there was a case in which heavy equipment was used to work using a metal panel of a straight form.

In this case, when the center of gravity is moved by the weight of heavy equipment on the top of the panel, the panel is also rotated together, so the heavy equipment is buried in the wetland in accordance with the repeated phenomenon of the center of gravity movement. There was a defect that caused the failure to escape, making the work impossible.

On the other hand, when dredging a freshwater facility, four temporary roads that can be moved from the outside to the inside are formed, and heavy equipment or work vehicles enter through the temporary road to perform work, and the temporary road is made according to the progress of the work. As dredging works in a backward way while eliminating, there was a defect that caused a delay in time and a great consumption of equipment and cost.

These drawbacks have led to the disadvantages of avoiding work in wetlands with high risks, making them impossible to work on or costly.

In order to prevent such drawbacks, the invention patent No. 0525504 (registered on October 25, 2005), which is filed by the applicant, and includes a top plate on which the endless track of heavy equipment is raised; Reinforcing conveying means provided with pile steels connected from both sides of the upper plate to the lower side, and made of inclined reinforcement steels installed inwardly of the pile steels; Through-holes through which the reinforcing section steel penetrates are formed, and the panel consists of a reinforcing plate connected to the inside of the pile section steel.

However, such a conventional technique is provided so as to face the pile file welded to both ends, so that a space is generated at the opposite portions, causing water, soil, or water to permeate, causing a decrease in function.

And when the endless track of heavy equipment rises to the upper side of the upper plate, the load applied to the whole is not constant, and the part to which the intensive load is applied is pressed, and the installation state of the upper plate is easily opened or pressed to keep the level very difficult. There was a drawback to this inconvenience.

Document 1. Patent Registration No. 0525504 (October 25, 2005 registration) Document 2. Utility Model Publication No. 1994-121 (August 10, 1994) Document 3. Utility Model Publication No. 1995-1114 (August 23, 1995)

The present invention is to solve such a conventional drawback, the problem is to form a fixed hole at both sides of the top plate to install the top plate on the floor, when overlapping protrusions are overlapping when combined the bending fixture to the fixing hole It is to be fixed so that the facing top plate is not separated.

Another problem of the present invention is to form an upper protrusion and a lower protrusion at the tip of the overlapping protrusion, and to form a space inside the protrusion so that the overlapping protrusion is installed so that the top protrusion and the bottom protrusion are coupled to each other and the upper plate is fixed so as not to be separated. It is.

The present invention is to form a slope on both sides of the upper plate in the wetland working apparatus for heavy equipment consisting of a panel provided with a reinforcing rod and a reinforcing bent plate,

Forming overlapping protrusions protruding from the end of the inclined surface, and forming a fixing hole in the four directions of the upper plate, by installing the panel is characterized in that to install a connecting device coupled to the connecting ring in both fixing holes. .

The present invention forms a fixed hole at both sides of the top plate, when the top plate is installed on the floor, the overlapping protrusions are overlapped, and the bending plate is coupled to the fixing hole to fix the top plate to be installed so as not to be separated. It is.

The present invention forms an upper protrusion and a lower protrusion at the tip of the overlapping protrusion, and forms a space inside the protrusion to install the overlapping protrusions so that the upper plate and the bottom protrusion are coupled to each other in the space and face each other with mutual coupling force. Is to fix the separation so that it is not separated

1 is a perspective view showing a preferred embodiment of the present invention
Figure 2 is a plan view of Figure 1 of the present invention
3 is a bottom perspective view of FIG. 1 of the present invention;
4 is a bottom view of FIG. 3 of the present invention.
5 is a cross-sectional view of the installation state of the present invention
6 is a rear perspective view of another embodiment of the present invention;
7 is a bottom view of FIG. 6 of the present invention.
8 is a side view of FIG. 6 of the present invention.
9 is an enlarged cross-sectional view of the main part of the main part of the present invention;
10 is an exploded cross-sectional view before installation of the connecting device of the present invention;
11 is a cross-sectional view of the installation state of the connection device of the present invention
12 is a cross-sectional view of a main part of another connecting device of the present invention;
Figure 13 is an exploded cross-sectional view before installation of another connection device of the present invention
14 is a cross-sectional view of the installation state for another connection device of the present invention

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

1 is a perspective view showing a preferred embodiment of the present invention, Figure 2 is a plan view of Figure 1 of the present invention, Figure 3 is a bottom perspective view of Figure 1 of the present invention, Figure 4 is a bottom view of Figure 3 of the present invention 5 is a sectional view showing an installation state of the present invention.

The panel 10 is composed of a plurality of sets are used, the endless track of the heavy equipment to be able to work by the two panels 10, one panel 10 to move in the desired direction so that the heavy equipment is It is possible to work while moving, or to be installed at a position to secure roads, temporary bridges, and necessary passages through which vehicles pass.

The panel 10 has a predetermined length and bends the inclined surface 12 at both ends of the upper plate 11, and forms the overlapping protrusions 13 and 13a in the outward direction on the inclined surface 12.

At least two fixing holes 17 are formed in both sides of the upper plate 11.

On the bottom surface of the top plate 11 of the panel 10, two to six straight reinforcing bars 20 are installed at regular intervals, and the reinforcing bent plate 21 is fixed by welding between the reinforcing bars 20 on both sides. .

The reinforcing bent plate 21 is formed in the transverse direction to support the lower side of the upper plate 11 is welded and fixed, the inclined portion is projected toward the lower side, the lower side is projected to be transverse in the inclined direction again It is installed to support the floor.

The upper side of the upper plate 11 is installed to guide the movement of the vehicle by installing the channel (10a) at a predetermined interval.

Figure 6 is a rear perspective view of another embodiment of the present invention, Figure 7 is a bottom view of Figure 6 of the present invention, Figure 8 shows a side view of Figure 6 of the present invention.

The inclined surface 12 is formed on both sides of the upper plate 11, and the fixing hole 17 is formed at the lower end of the inclined surface 12 in a state in which the overlapping protrusions 13 and 13a protrude integrally. The reinforcement H beam 11a is welded and fixed below the center of (11).

9 is an enlarged cross-sectional view of the main portion of the main part of the present invention, Figure 10 is an exploded cross-sectional view before installation of the connection device of the present invention, Figure 11 shows a cross-sectional view of the installation state of the connection device of the present invention.

The connecting device 30 for installing and fixing the panel 10 so as not to be separated from each other is installed so that the overlap protrusions 13 and 13a of the upper plate 11 facing each other are overlapped and the connecting ring 18 is fixed at the upper side. In combination with (17), the overlapping protrusions 13 and 13a meet each other so that water or mud can be prevented from being discharged from the lower side.

Figure 12 is a cross-sectional view of the main part of the other connecting device of the present invention, Figure 13 is an exploded cross-sectional view before installation of the other connecting device of the present invention, Figure 14 shows a cross-sectional view of the installation state for the other connecting device of the present invention will be.

The connecting device 30 fixes the upper protrusions 15 and 15a formed of a circle or a rectangle on the upper side at the ends of the overlapping protrusions 13 and 13a protruding downward of the inclined surface 12, and the overlapping protrusions 13 and 13a. At the end of the) to fix the lower projections (16, 16a) consisting of a circle or a square on the lower side.

The upper protrusions 15 and 15a and the lower protrusions 16 and 16a may be fixed by welding a thing having a straight shape or by fixing a predetermined interval after fixing it at a predetermined interval without fixing the entire surface.

Spaces 14 and 14a are formed inside the upper protrusions 15 and 15a so that the overlap protrusions 13 and 13a are combined so as not to be separated when they overlap.

The panel 10 of the present invention having such a configuration constitutes a plurality of sets, so that heavy equipment enters the wetland and works to secure temporary roads where vehicles pass and roads where bridges and people pass. will be.

In the case of installation in a wet place or a place where passage is difficult, after installing one top plate 11, when the new top plate 11 is connected, overlap protrusions 13 and 13a formed below the inclined surface 12 of the top plate 11 overlap. 10 is installed as shown in FIG. 10, and as shown in FIG. 12, the connector is connected to the fixing hole 17 formed in the upper plate 11 by using the connecting ring 18. .

When the upper plate 11 is connected at both sides by using the connecting ring 18 of the connecting device 30, even if an external force is applied while the overlapping protrusions 13 and 13a are overlapped, water or mud cannot be separated from the lower side. The back will not leak upward.

The panel 10 forms a reinforcing bar 20 and a reinforcing bent plate 21 or reinforcing H beam 11a formed at the lower side so that the panel 10 is securely fixed to the floor, and the installation state is not deformed even when external force is applied from the upper side. It is safe to maintain, and after use it can be removed, cleaned and reused.

10 and 11, the connecting device 30 may be connected to the panel 10 by using the connecting ring 18, as shown in Figures 12 to 14, overlapping protrusions ( The coupling force is provided by the upper protrusions 15 and 15a and the lower protrusions 16 and 16a formed at the ends of 13 and 13a.

When the panel 10 is connected to each other so that the overlap protrusions 13 and 13a of the connecting device 30 overlap each other, the space formed at the inner side of the upper protrusion 15 is the lower protrusion 16a of the overlap protrusion 13a. 14), and the lower protrusion 16a is caught by the upper protrusion 15 while being located in the space 14 by the load applied from the overlapping protrusion 13a, thereby providing sufficient coupling force to each other to prevent separation from each other. Will be done.

The upper protrusion 15. 15a and the lower protrusion 16, 16a through the connecting device 30 to be coupled to each other in the space (14, 14a) to provide mutual coupling force between the panel 10, at the same time the connection ring By providing a coupling force using (18) it is possible to use both of the connecting device 30, or to use independently of each other.

The present invention provides strength through the reinforcing bar and the reinforcing bent plate formed on the lower side of the upper plate, overlapping overlapping protrusions protruding to the lower side of both inclined surfaces and connecting the connecting ring to the fixing hole in the upper side to fix the adjacent panels. It is to provide a stable bonding force not to be separated.

10: panel 10a: channel
11: top plate 11a: reinforcement H beam
12: inclined surface 13, 13a: overlap protrusion
14, 14a: space 15, 15a: upper projection
16, 16a: lower protrusion 17: fixing hole
18: link 20: reinforcement
21: reinforcing bent plate 30: connecting device

Claims (2)

delete The inclined surface 12 is formed on both sides of the upper plate 11 and consists of a panel 10 having a reinforcing bar 20 and a reinforcing bending plate 21 installed downward;
In the wetland working apparatus for heavy equipment to form overlapping protrusions (13, 13a) at the end of the inclined surface (12), the panel 10 is coupled to the connection device 30 so as not to be separated,
The connecting device 30 forms upper projections 15 and 15a upwardly from the overlapping protrusions 13 and 13a, and installs lower protrusions 16 and 16a below the overlapping protrusions 13 and 13a. Spaces 14 and 14a are formed in the inclined surface 12 of the upper protrusions 15 and 15a so that any one of the lower protrusions 16 and 16a is coupled to the spaces 14 and 14a. Wetland work equipment for heavy machinery.

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