KR200346156Y1 - Non-Vibrative Type Horizontal Screw Excavator for Steel-Pipe Propulsion - Google Patents

Abstract

It is easy to assemble and dismantle, so it is easy to install and transport the equipment, and the driving force is reduced, and the soil by excavation is automatically discharged to the excavation port on the back side of the screw by the rotation of the screw. Preferably, the excavator main body is rotatably coupled with a movable support installed in one working space of the excavation site, a discharge screw which is slidably supported forward and backward by the movable support and inserted into an indentation pipe positioned forward. The propulsion device is slidably supported on the moving support at the rear of the propulsion unit and pushes the discharge screw and the press-fit pipe into the excavation site by applying a pushing force to the excavator body, and the propulsion device is fixedly installed with the moving support at the rear of the propulsion device. Enclose a reaction wall that prevents reversing while pushing To provide a vibration-free steel tube press-screw horizontal excavators made.

Description

Non-Vibrative Type Horizontal Screw Excavator for Steel-Pipe Propulsion}

The present invention relates to a vibrationless screw horizontal excavator for steel pipe pressurization, and more particularly, to an easy assembly and disassembly, which is easy to install and transport, requires less propulsion, and a vibration-free screw horizontal excavator for steel pipe presser that has a good state of processing of soil. will be.

In general, when long-distance transportation of various fluids such as water, oil, and gas, or to install electrical and communication cables in the basement, a pipeline construction is performed to bury a steel pipe in the ground to form a flow path or cable receiving space.

The pipeline is usually made by digging the ground to a predetermined depth from the ground, installing a steel pipe having a predetermined length and diameter, covering the excavated soil, or placing concrete, and sometimes installing it on the ground using a feature. Sometimes.

In the pipeline construction as described above, steel pipes are often installed across roads or railroads, and in this case, it is necessary to make a detour, such as causing traffic jams or passing steel pipes through the underpass. There are a number of irrational problems, such as longer pipelines and increased costs.

Therefore, in the conventional pipeline construction, the steel pipe press-fitting excavation method that presses the steel pipe into the ground such as a road or a railway so as not to bypass the work is applied to solve the above problems.

The excavation method for the steel pipe pressurization is formed on both sides of the excavation site to be excavated ground, such as roads or railroads to form a puddle (forwarding base or reach base) for the excavation work, the other side in one pool (forward base) After pushing or hitting the steel pipe toward the puddle (reach base) of the press, the press is made of the steel pipe is made of a process of taking out the excavation, such as soil generated inside the steel pipe.

By the way, the conventional excavation method for the steel pipe press construction configured as described above may cause vibration when the steel pipe is pushed in and press-fitted, and may cause settlement or cracking of the excavated site as the vibration is generated. Requires propulsion.

In particular, in the case of railways, even if a settlement of several mm or less occurs, accidents such as derailment of the train are likely to occur, and thus, excavation work without vibration is required.

In addition, in the conventional steel pipe indentation excavation method is because the soil discharged by pressing the steel pipe is scattered without being arranged, the work site is dirty and difficult to dispose of the soil.

The purpose of the present invention is to solve the problems as described above, it is made of a structure that is easy to disassemble and assemble, easy to move and install the screw is not exposed to the outside of the steel pipe safe and small propulsion The present invention provides a vibration-free screwless horizontal excavator for pressurization that does not generate vibration.

1 is a perspective view showing an embodiment of a vibration-free screw horizontal excavator for steel pipe press according to the present invention.

Figure 2 is a cross-sectional view of the installation state showing an embodiment of the vibration-free screw horizontal excavator for steel pipe press according to the present invention.

Figure 3 is an installation state diagram showing an embodiment of a vibration-free screw horizontal excavator for steel pipe press according to the present invention.

4 is an enlarged view of a portion A of FIG. 3.

Figure 5 is a partial cross-sectional view showing a state in which the indentation pipe is installed in one embodiment of the vibration-free screw horizontal excavator for steel pipe press according to the present invention.

6 is a partial cross-sectional view showing a state in which the indentation pipe is pressed in and the excavated material is discharged in an embodiment of the vibrationless screw horizontal excavator for steel pipe press according to the present invention.

Vibration-free screw horizontal excavator for steel pipe pressurization proposed by the present invention is a movable support installed in one working space of the excavation site, and a discharge screw inserted into the inside of the press-fitted pipe which is slidably supported forward and backward on the movable support. An excavator body rotatably coupled to the excavator body, the propulsion device being slidably supported by the movable support at the rear of the excavator body and applying a driving force to the excavator body to press the discharge screw and the press-fit pipe into the excavation site; It is formed integrally with the moving support at the rear of the propulsion device is made of a reaction force wall to prevent the propulsion device to retract during the application of the driving force to the excavator body.

The movable support is composed of a pair of rails installed in parallel at predetermined intervals and a plurality of connection bars for connecting and fixing the pair of rails.

The excavator body includes a rotational power source for transmitting rotational force to the discharge screw, a support case for wrapping and supporting the rotational power source, and a body support for slidably supporting the support case from the moving support.

The propulsion device is composed of a hydraulic cylinder, and the propulsion support for supporting the hydraulic cylinder from the movable support so as to be slidable.

In the excavator body, one end is connected to the front end of the support case, and as the discharge screw rotates, a discharge port is formed, and a support part for supporting one end of the press-fit pipe is formed at the other end. It is possible to install a cylindrical discharge drum formed in the portion, and a discharging device consisting of a guide provided on one side of the discharge drum and guiding the excavated material discharged to the discharge port.

And the drive support of the vibration-free screw horizontal excavator for steel pipe press proposed by the present invention is installed and fixed to the rack gear along the longitudinal direction of the center, the excavator body is coupled to the pinion gear to rotate in engagement with the rack gear It is possible to install.

Next, a preferred embodiment of the vibration-free screw horizontal excavator for steel pipe press according to the present invention made as described above will be described in detail with reference to the drawings.

First, an embodiment of the vibration-free screw horizontal excavator for steel pipe press according to the present invention, as shown in Figures 1 to 3, the movable support 10 is installed in the working space 4 of the excavation site 2, and the An excavator body 20 rotatably supported back and forth on the movable support 10 and to which the discharge screw 26 inserted into the indentation pipe 6 positioned in front is rotatably coupled, and the excavator body 20 Slidable to the movable support (10) from the rear of the) and applying a propulsive force to the excavator body (20) for pushing the discharge screw 26 and the press-fit pipe (6) into the excavation site (2) 30 and a reaction force wall fixedly installed at the rear of the propulsion device 30 and the moving support 10 to prevent the propulsion device 30 from being retracted while applying the propulsive force to the excavator body 20 ( 40).

Examples of the excavation site (2) where the excavation work is performed by using a vibration-free screw horizontal excavator for steel pipe press according to the present invention made as described above, such as highways, railroads, rivers, etc., mainly excavated ground (2) It is more effective when) is the target of excavation work.

The work space 4 may be formed in various shapes according to the excavation site 2 on one or both sides of the excavation site 2, and when the excavation site 2 is a hill, the work space 4 is separately provided. It is also possible to use nearby flats without formation.

The press-fit pipe 6 refers to a steel pipe (steel pipe) used in the pipeline.

As shown in FIGS. 1 and 2, the movable support 10 connects and fixes the pair of rails 12 installed in parallel at predetermined intervals and the pair of rails 12 at predetermined intervals. It consists of a plurality of connecting rods (14).

Although the moving support 10 of the vibration-free screw horizontal excavator for steel pipe press according to the present invention made as described above is not shown in the drawing, after forming to be divided into two on the basis of the longitudinal middle portion of the rail 12, welding or connecting member By connecting the rails 12 to each other (for example, bolts, nuts, etc.), the length can be increased and integrated.

The excavator body 20, as shown in Figures 1 to 3, a rotary power source 24 for transmitting a rotational force to the discharge screw 26, and a support case 23 for wrapping and supporting the rotary power source 24 and , The support case 23 is composed of a main body 25 for supporting the sliding support from the movable support (10).

The rotary power source 24 may use an electric motor, a hydraulic motor, or the like, and it is preferable to use a hydraulic motor because it is possible to safely and continuously work even in rainy weather.

At one end of the support case 23 (propulsion device side), a transmission part 28 receiving the propulsion force of the propulsion device 30 protrudes integrally.

In one embodiment of the non-vibrating screw horizontal excavator for steel pipe press according to the present invention made as described above, one end is connected to the front end of the support case 23, the discharge screw ( As the 26 is rotated, a discharge port 54 is formed to discharge the discharge (soil, etc.), and a cylindrical discharge is formed at the other end of the support 56 for supporting one end of the press-fit pipe 6. It is possible to provide a discharging device 50 comprising a drum 52 and a guide table 58 which is provided on one side of the discharge drum 52 and guides the excavated material discharged from the discharging port 54.

The propulsion device 30 is composed of a hydraulic cylinder (32), and the propulsion support (34) for supporting the hydraulic cylinder (32) to be slidable from the moving support (10).

The reaction force wall 40 is formed in various shapes (for example, a shape connecting a plurality of beams) and is fixed to the moving support 10 by welding or fixing bolts.

And one embodiment of the vibration-free screw horizontal excavator for steel pipe press according to the present invention made as described above, as shown in Figure 4, the movable support 10 is fixed to the rack gear 62 is installed along the longitudinal direction of the center In addition, the excavator main body 20 is provided with a drive device 64 to which the pinion gear 66 is coupled to rotate in engagement with the rack gear 62.

By installing the drive device 64 in which the rack gear 62 and the pinion gear 66 are installed as described above, it is possible to move the excavator main body 20 back and forth regardless of the propulsion device 30. .

Next, the operation of the vibration-free screw horizontal excavator for steel pipe press according to the present invention made as described above will be described in detail with reference to the drawings.

First, when the vibration-free screw horizontal excavator for steel pipe press-fitting according to the present invention is transported around the work space 4 of the excavation paper 2, one end portion is directed to the bottom of the work space 4 toward the excavation paper 2. Install and fix the moving support (10).

After the movable support 10 is installed as described above, the reaction force wall 40 is integrally installed and fixed to the opposite end of the excavation site 2 of the movable support 10, and the rack gear ( 62) Install and secure.

In the above, the movable support 10 and the rack gear 62 and / or the movable support 10 and the reaction wall 40 is fixed to the installation space in the working space (4) in a state fixed integrally outside the working space (4) It is possible.

After installing the reaction force wall 40 and the rack 62 as described above, and install the excavator body 10 and the propulsion device 30 to the rail 12 of the movable support 10, respectively. 1 to 3)

Excavator body 20 and the discharge screw 26 is preferably transported in a state separated from each other in the work space (4) to be assembled with each other.

After installing the excavator body 20 and the propulsion device 30 as described above, as shown in FIG. 5, the press-fit tube 6 is inserted into the excavator body 20 with the discharge screw 26 inserted therein. And between the excavation site (2).

After supporting the press-fit pipe 6 as described above, the propulsion device 30 such that the front end of the piston rod 33 of the hydraulic cylinder 32 is in contact with the propulsion transmission portion 28 of the excavator body 20. By moving the propulsion device 30 while moving the propulsion device 30, the space 70 generated between the reaction force wall 40 and the propulsion device 30 by supporting one or more bracing member 72 to the pedestal 74 Support

After installing the propulsion device 30 as described above, the excavator body to operate the propulsion device 30 to extend the length of the piston rod 33 of the propulsion device 30 while the discharge screw 26 rotates Activate (20).

As shown in FIG. 6, as the propulsion device 30 and the excavator main body 20 are operated as described above, the excavator main body 20 moves forward and at the same time, the press-fit pipe 6 also moves to the excavation site 2. Indented.

As the indentation pipe 6 is pressurized as described above, the excavated material 3, such as soil, is sucked into the indentation pipe 6 and the excavated material 3 is sucked by the rotation of the discharge screw 26. It is conveyed and discharged to the discharge port 54 of the discharge drum 52 and guided to the guide 58.

On the other hand, in the case of pressing another indentation pipe (6) to the excavation site (2) after stopping the operation of the propulsion device 30 in the state in which the rear end of the first indentation pipe (6) is first installed Remove the brace member 72 and the pedestal 74 and retract the propulsion device 30 back.

After the propulsion device 30 is retracted as described above, the back end of the press-fit pipe 6 and the back end of the press-fit pipe 6 already press-fitted the back of the excavator main body 20 and press-fitted. Secure through

After the press-fit pipes 6 are fixed to each other as described above, the same process as when press-fit the press-fit pipe 6 already press-fitted is repeated.

In the above description of the preferred embodiment of the vibration-free screw horizontal excavator for steel pipe press according to the present invention, the present invention is not limited to this, but the utility model registration claims and detailed description of the design, various modifications within the scope of the accompanying drawings. It is possible to carry out by this, and this also belongs to the scope of the present invention.

According to the vibration-free screwless horizontal excavator for steel pipe press according to the present invention made as described above, by pressing the press-fit pipe, such as steel pipe into the excavation site, the excavated material such as soil introduced into the press-fit pipe is discharged to the outside through the discharge screw Since it is made of a structure to make, there is little generation of vibration as compared to the method of hitting and pressing the steel pipe conventionally.

Therefore, it is possible to solve a problem such as a traffic accident or traffic impact due to the cracking or settlement of the excavation site such as roads and railways.

In addition, when the steel pipe is press-fitted, soil, which is pressurized into the steel pipe, is continuously discharged through the discharge screw, so the resistance due to earth pressure in the front part of the steel pipe is greatly reduced, which is about 1/5 to 1/10 of the driving force required during the forced press. The driving force can be reduced, which is very efficient, and it is possible to form a small scale of the propulsion device. In addition, since the center axis of the press-fit pipe, the propulsion device, and the discharge screw is located on the same line, the driving force is applied around the center line of the press-fitted steel pipe, so that the driving force is improved, and the steel pipe is pushed in a straight line.

According to the vibration-free screwless horizontal excavator for steel pipe press according to the present invention made as described above, since the rotating discharge screw is located inside the steel pipe to be press-fitted, there is a great possibility of a safety accident such as worker injury by the discharge screw Decreases.

In addition, because the discharge device for guiding the discharge of the soil, such as the soil discharged by the discharge screw in a predetermined direction is installed, the excavation, such as soil, is not scattered or disturbed in all directions, and discharged to one side Easy to process

According to the vibration-free screw horizontal excavator for steel pipe press according to the present invention made as described above, the reaction force wall to prevent the backward of the propulsion device is made using a steel structure, such as a movable beam, and supports the movement of the propulsion device and the discharge screw. Since it is installed integrally with the movable support, there is no need to install a reaction wall by placing concrete every time according to the working place. Therefore, the work process can be reduced and it is easy to install the reaction wall even when the work space is narrow.

According to the vibrationless screw horizontal excavator for steel pipe press according to the present invention made as described above, it is possible to move forward and backward by placing the propulsion device and the excavator body to be placed on the moving support, so that the disassembly and assembly are simple, and the transport and movement are convenient. Do.

Therefore, the mobility is improved, the installation work is easy and simple, and the installation cost can be reduced by manpower without using heavy equipment, thereby reducing the work cost.

In addition, in the case of the short excavation site to press-fit the indentation pipe can be reduced even by the length of the movable support it is possible to reduce the size of the pool, which is the working space.

In addition, since the back and forth of the excavator body is made through the rack gear and the pinion gear, the transmission efficiency is improved as compared with the transmission of the propulsion force by using the chain as a power transmission medium.

According to the vibration-free screw horizontal excavator for steel pipe press according to the present invention made as described above, it is possible to move the excavator body or to rotate the discharge screw by generating a driving force by the hydraulic cylinder and by generating a rotational force by the hydraulic motor, Even after the water is flooded into the pool, the space, it can be operated in a short time after draining.

Claims (5)

A moving support installed in one working space of the excavation site, An excavator body rotatably supported back and forth on the moving support and rotatably coupled to an exhaust screw inserted into an indentation pipe positioned at a front side thereof; A propulsion device that is slidably supported by the moving support at the rear of the excavator body and applies a driving force to the excavator body to press-fit the discharge screw and the press-fit pipe into the excavation site; An anti-vibration screw horizontal excavator for steel pipe pressurization, comprising a reaction wall fixedly installed at the rear of the propulsion device and integrally with the moving support to prevent the propulsion device from reversing while applying the propulsion force to the excavator body. The method of claim 1, wherein the moving support A vibration-free screw horizontal excavator for steel pipe pressing, comprising a pair of rails installed in parallel at predetermined intervals and a plurality of connecting rods for connecting and fixing the pair of rails. The method according to claim 1, The excavator body is composed of a rotational power source for transmitting rotational force to the discharge screw, a support case for wrapping and supporting the rotational power source, and a body support for supporting the support case slidably from the movable support, The propulsion device is a vibration-free screw horizontal excavator for steel pipe pressurization consisting of a hydraulic cylinder and a prop support base for slidably supporting the hydraulic cylinder from the movable support. The method according to any one of claims 1 to 3, The rack is provided with a rack gear along the longitudinal direction of the center, The excavator body vibration-free screw horizontal excavator for moving the excavator body back and forth as the pinion gear is rotated by installing a drive device coupled to the pinion gear to rotate in engagement with the rack gear. The method according to claim 1 or 3, The excavator body has one end connected to the front end of the support case, and the discharge port is discharged as the discharge screw rotates, and a discharge port is formed, and the support for supporting one end of the press-fit pipe is the other end. Vibration-free vibration screw horizontal excavator is provided with a cylindrical discharge drum which is formed in, and a discharging device is installed on one side of the discharge drum and guided to guide the discharge discharged from the discharge port.