KR200296435Y1 - The propelling pipe and its coupling device of semi-shield method - Google Patents

Abstract

The present invention relates to the propulsion pipe of the semi-shield method and the small-caliber propulsion method and its connection device. More specifically, the semi-shield method and the small-caliber propulsion, which are used to bury water and sewage, electric and communication lines, etc. In the process, the thrust of the jack located in the rear to transmit the forward excavator is formed and the pipeline is formed to increase the watertightness and improve the workability. And a stainless socket for inserting the propellant tube, the water-expandable rubber ring inserted into the ring insertion groove of the propulsion tube, the caulking agent fitted to the side thereof, and the water-expanded rubber ring and the caulking agent inserted into the outer side of the propulsion pipe to joint the two propulsion tubes. It relates to a connection device of the propulsion pipe consisting of.

According to the present invention, the socket insertion end is processed on the outer circumferential surface of both ends of the pipe body, and the propulsion pipe of the semi-shield method and the small-diameter tube propulsion method in which a ring insertion groove is recessed in a part of the socket insertion end is connected to the propulsion pipe, Propulsion consisting of a water-expandable rubber ring fitted into a ring insertion groove of a propulsion pipe, a caulking agent fitted to a socket insertion end, and a stainless socket extrapolated outside the water-expanded rubber ring and caulking agent to joint two propulsion tubes. Tube connections are provided.

Description

The propelling pipe and its coupling device of semi-shield method

The present invention relates to the propulsion pipe of the semi-shield method and the small-caliber propulsion method and its connecting device. More specifically, the semi-shield method and the small-caliber propulsion are used for laying the urban infrastructure such as water and sewage, electric and communication lines. In the process, the thrust of the jack located in the rear to transmit the forward excavator is formed and the pipeline is formed to increase the watertightness and improve the workability. And a stainless socket for inserting the propellant tube, the water-expandable rubber ring inserted into the ring insertion groove of the propulsion tube, the caulking agent fitted to the side thereof, and the water-expanded rubber ring and the caulking agent inserted into the outer side of the propulsion pipe to joint the two propulsion tubes. It relates to a connection device of the propulsion pipe consisting of.

The semi-shield method and small landscape propulsion method were developed to minimize the noise, dust, ground subsidence and traffic obstacles generated during the construction of the conventional cut-off method for the laying of urban infrastructure such as water and sewage, electricity, and communication lines. As a construction method, after excavating the ground vertically to the planned depth, the excavator is placed in front of the horizontal pipeline forming work section and the jack is installed at the rear, and the jack is moved forward to the excavator by the extension of the jack, and the jack is contracted. Insert the propulsion tube between the excavator and the jack, and extend the jack again to transfer the movement along with the excavation of the excavator. After contracting the jack, the other propulsion tube is inserted into the propulsion tube in front of the jack to push the excavator forward. It is a method of forming a pipeline through a series of iterations.

The semi-shield method and the small-caliber propulsion method as described above are safe and accurate, and can be installed in a short time due to the long one-propelled section, and the safety construction is possible because the risk of ground collapse is reduced than when digging with manpower. Excavation is performed while observing the lipids of the membrane, which has the advantage of being able to process a certain amount of sand and gravel.

In addition, the propulsion pipes used in the semi-shield method and the small-caliber propulsion method should be securely joined to the watertight joint, and the assembled propulsion pipes should be correctly joined so as not to be deformed by load or self weight.

In addition, in transmitting the force of the jack to the connection of the propulsion pipe for the transport of the excavator, the thrust of the jack should be distributed evenly to the propulsion pipe, and should be parallel to a certain level so that the propulsion pipe does not deviate from its position.

In addition, the semi-shield method and small-caliber propulsion method should prevent ground subsidence.

As described above, in the semi-shield method and the small-caliber tube propulsion method which must satisfy various conditions, many side effects are caused due to the structural problems of the propulsion tube.

That is, the conventional propulsion pipes include reinforced concrete pipes and steel pipes, and the reinforced concrete pipes are inserted by end portions for connection to each other. This increasing problem may arise. When sewer pipes are constructed by steel pipes, the slope of the pipes should be accurate, but after the propulsion of the steel pipes, a polyethylene (PE) pipe or a vinyl chloride (PVC) pipe is inserted into the pipe to fit the gradient, which is a problem in terms of accuracy.

The object of the present invention is to improve the airtightness and connectivity in consideration of the conventional problems as described above, and to make the connection portion the same outer diameter as other parts, so that the outer surface and the excavated ground surface of the propulsion tube is in close contact there is no free space The present invention provides a propulsion pipe and a connection device of a semi-shield method and a small-caliber propulsion method that can prevent the ground collapse and its associated problems.

1 is a state diagram used in the present invention

2 is a partial cross-sectional view of the propulsion pipe of the present invention

3 is a perspective view of the connection device of the present invention

4 is a cross-sectional view of the coupling device of the present invention

5 is a state in which a plurality of propulsion pipes are connected by the connection device of the present invention

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

1: propulsion pipe 2: socket insertion end 3: ring insertion groove

4: water-expandable rubber ring 5: caulking agent 6: stainless socket

7: jack 8: excavator

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, in the propulsion pipe (1) of the semi-shield method and the small-diameter tube propulsion method having a structure in which only one side of the pipe can be expanded and the other side can be interpolated, the socket insertion end (2) is processed on both outer peripheral surfaces of the pipe. The ring insertion groove 3 is recessed in a part of the socket insertion end 2 again.

In addition, the apparatus for joining the propulsion pipe (1) of the present invention having the structural features as described above, the water expansion rubber ring (4) to be fitted into the ring insertion groove (3) of the propulsion pipe (1), and the socket insertion end (2) is fitted with a caulking agent (5) fitted to the water-expandable rubber ring (4) and the caulking agent (5) to the outside is characterized by consisting of a stainless socket (6) for joining the two propulsion pipe (1) do.

In the figure, reference numeral 7 is a jack for providing thrust, and 8 is an excavator.

The propulsion pipe 1 having the structure as described above is used as shown in FIG. 1 and the watertightness is increased by the characteristic structure of the connecting portion, and the straightness and the thrust of the jack 7 are transmitted to the propulsion pipe 1 with good uniformity. Will be.

That is, the excavator 8 for excavation for the facility at the planned depth is located in the front, and the jack 7 for generating thrust is installed at the rear. Excavator 8 is to excavate the ground for the installation of the pipeline, the horizontal movement of the excavator (8) will have a structure by the thrust of the jack (7).

Accordingly, the excavator 8 is transferred by the jack 7 by the stroke distance of the jack 7, and a space is formed between the jack 7 and the excavator 8 due to the contraction of the jack 7. When the propulsion tube 1 is inserted into this space to extend the jack 7, the thrust of the jack 7 is transmitted to the excavator 8 by the propulsion tube 1, and the excavator 8 moves forward. Done. When the jack 7 is contracted again, a space is formed between the jack 7 and the propulsion tube 1, and another propulsion tube 1 is inserted into the space.

At this time, the propulsion pipe (1) and the propulsion pipe (1) should be connected to maintain the confidentiality. The connection in the present invention is characterized by having a structure excellent in watertightness, and its function is doubled by the water-expandable rubber ring 4 and the caulking agent 5.

The propulsion pipe 1 may be processed and carried out in the field, or a propulsion pipe 1 molded in advance may be used. In order to join the propulsion pipe (1), after inserting the water-expandable rubber ring (4) in the ring insertion groove (3) inserted into the end of the propulsion pipe (1) and the caulking agent (5) on its side, stainless steel The socket 6 is extrapolated to the outside of the water expansion rubber ring 4 and the caulking agent 5, and the water expansion rubber ring 4 and the caulking agent 5 are inserted into the stainless socket 6; Inserting the other propulsion pipe (1) is a couple of two propulsion pipe (1).

Therefore, the present invention prevents the flow of water or air into the gap between the stainless socket 6 and the propulsion pipe 1 by the water-expandable rubber ring 4 and the caulking agent 5 which are expanded. The above airtight is doubled and its operation is assured. Of course, it is also possible to use a separate adhesive to maintain more airtight here.

In addition, since the connecting device of the present invention is not larger than the outer diameter of the propulsion tube 1, the outer surface of the propulsion tube 1 does not have a protruding portion, so that it is easy to transfer during excavation work, and the propulsion tube 1 after construction is completed. There is no space between and the excavated underground. On the other hand, in the conventional case, the connection portion protrudes, so that a space portion is formed after construction, causing a problem of ground subsidence, but the present invention solves this problem.

The present invention thus achieved is improved airtightness and connectivity by multiple airtight devices, and the connection part has the same outer diameter as other parts, so that the outer surface of the propulsion pipe 1 and the excavated ground surface are in close contact and there is no free space. There is an effect that can prevent the collapse of the ground and the accompanying problems, the effect of increasing the efficiency of the work is easy to transport the excavator 8 and the propulsion pipe (1) during the excavation work of the excavator (8) There is.

Claims (2)

In the propulsion pipe (1) of the semi-shield method and small-diameter tube propulsion method having a structure in which only one side of the pipe can be expanded and the other side can be interpolated, the socket insertion end (2) is machined on the outer peripheral surface of both ends of the pipe, and the socket The propulsion tube of the semi-shield method and the small-caliber propulsion method, characterized in that the ring insertion groove (3) is recessed in part of the insertion end (2). In the apparatus for joining the propulsion pipe (1) used in the semi-shield method and the small diameter propulsion method, the water expansion rubber ring (4) to be fitted into the ring insertion groove (3) of the propulsion pipe (1), and the water expansion rubber Propulsion pipe connecting device of the semi-shield method and small diameter tube propulsion method characterized in that it consists of a stainless socket (6) to be extrapolated to the ring (4) and the caulking agent (5) outside the two propulsion pipe (1).