KR200396390Y1 - A foundation an excavator adhesion air hammer - Google Patents

Abstract

The present invention relates to a pneumatic hammer-integrated ground excavation device is a ground excavation and concrete filling operation in one reciprocating movement, more specifically, the excavation rod and the pneumatic hammer is bolted to the upper and lower ends of the shock absorbing rod is formed By assembling the end of the excavation pipe of the device, the impact generated from the ground excavation by the pneumatic hammer is absorbed by the buffer rod, thereby preventing damage to the excavation rod or the pneumatic hammer, and the concrete flow path and the air flow path of the excavation rod Connected with the air passage inside the buffer rod dually, the air pressure is transmitted to the pneumatic hammer so that the excavation rod is raised while the concrete filling operation is performed, the air pressure on the air flow path is continuously supplied into the pneumatic hammer to maintain a high pressure state. According to the external high pressure concrete Relates to a pneumatic hammer integrated soil drilling apparatus is introduced to the pneumatic hammer is prevented.

According to the present invention, an air, water, concrete, etc. are moved to the concrete flow path and the air flow path formed by combining a plurality of excavation rod for spraying concrete to the outside by forming a spray hole on the side, and the excavation rod and the removable In the ground excavation device coupled to the end of the excavation pipe by the air hammer hammered vibrating by the air flowing from the excavation rod, wherein a plurality of shock absorbing band is formed between the excavation rod and the pneumatic hammer When the rod is inserted and coupled, the concrete flow passage and the air flow passage are connected to each other at the lower end of the excavating rod and are connected to the air passage formed inside the buffer rod, so that the excavation work by the lowering of the excavation pipe The air supplied to the concrete flow path is introduced into the pneumatic hammer through the buffer rod, and the excavation pipe In the case of concrete filling operation due to the rising of the pneumatic hammer, the pneumatic hammer integrated ground excavation device is provided so that the air supplied to the air flow path is introduced into the pneumatic hammer.

Description

A foundation an excavator adhesion air hammer

The present invention relates to a pneumatic hammer-integrated ground excavation device is a ground excavation and concrete filling operation in one reciprocating movement, more specifically, the excavation rod and the pneumatic hammer is bolted to the upper and lower ends of the shock absorbing rod is formed By assembling the end of the excavation pipe of the device, the impact generated from the ground excavation by the pneumatic hammer is absorbed by the buffer rod, thereby preventing damage to the excavation rod or the pneumatic hammer, and the concrete flow path and the air flow path of the excavation rod Connected with the air passage inside the buffer rod dually, the air pressure is transmitted to the pneumatic hammer so that the excavation rod is raised while the concrete filling operation is performed, the air pressure on the air flow path is continuously supplied into the pneumatic hammer to maintain a high pressure state. According to the external high pressure concrete Relates to a pneumatic hammer integrated soil drilling apparatus is introduced to the pneumatic hammer is prevented.

In various civil works, a concrete retaining wall is installed to prevent the soil from flowing down or collapsing. The concrete retaining wall fills the concrete with holes formed by excavating the ground to form a pile, and the concrete pile It is formed close to each other.

Here, the excavation and concrete filling operation as described above is an excavation rod for injecting concrete to the outside by moving the air, water, concrete, etc. and the injection hole is formed in the side passage formed by combining a plurality of, and the excavation rod lower side It is made by an excavation device having an excavation tube consisting of excavation bits coupled to the ends to excavate the ground.

Here, when a lot of rock is mixed in the ground layer, since the excavation is difficult to be drilled with a general excavation bit, the excavation operation is easily performed by combining the pneumatic hammer to the end of the excavating rod and vibrating.

However, when performing ground excavation work using the pneumatic hammer as described above, the impact force generated in the process of the rock and the pneumatic hammer collide with each other as it is transmitted to the drilling pipe as it is easily damaged or damaged by the pneumatic hammer and the drilling rod There was a problem.

In addition, the excavation device is to perform the excavation work by lowering the excavation pipe from the ground surface, and again to raise the excavation pipe in the basement to perform the concrete filling work, the concrete filling work is spraying concrete at high pressure to excavate Soil or rock around the tube is agitated with the sprayed concrete while being constantly crushed by high pressure.

As a result, the outside of the excavation tube is maintained at a high pressure. When using an excavation device having an end of the pneumatic hammer, the pressure inside the pneumatic hammer is significantly lower than that of the outside. Concrete and other impurities are introduced to damage the pneumatic hammer.

The purpose of the present invention is to solve the problems as described above, the drilling rod and the pneumatic hammer is bolted to the upper and lower ends of the shock absorbing rod is formed in the ground drilling by the pneumatic hammer by assembling the end of the excavation pipe The generated impact amount is absorbed by the buffer rod to prevent breakage of the excavation rod or the pneumatic hammer, and the concrete flow passage and the air flow passage of the excavation rod are connected to the air passage inside the buffer rod to double the air pressure with the pneumatic hammer. As the excavation rod rises and the concrete filling operation is carried out, the air pressure on the air flow path is continuously supplied to the inside of the pneumatic hammer to maintain the high pressure state, thereby preventing the inflow of concrete into the pneumatic hammer by the external high pressure. Pneumatic Hammer Integrated Ground Excavator It is to.

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

In the pneumatic hammer integrated ground excavation device 100 of the present invention, the air, water, concrete, etc. are moved to the concrete flow path 7 and the air flow path 8 formed by combining a plurality of injection holes 13 on the side Is formed to excavate with an excavation rod (4) for injecting concrete to the outside, and the pneumatic hammer (6) vibrating movement by the air flowing from the excavation rod (4) detachably coupled to the excavating rod (4) In the ground excavation device 100 having the end of the pipe 3 assembled, a buffer rod 5 having a predetermined length having a plurality of shock absorbing bands 12 is formed between the excavating rod 4 and the pneumatic hammer 6. Inserted and joined; At the lower end of the excavating rod (4), the concrete flow path (7) and the air flow path (8) are connected to each other is connected to the air passage (9) formed inside the buffer rod (5), the pipe for excavation ( In the excavation work by the lowering of 3), the air supplied to the concrete flow path 7 is introduced into the pneumatic hammer 6 through the buffer rod 5, and the concrete filling by the rise of the excavation pipe 3 is performed. During operation, it is characterized in that the air supplied to the air flow path (8) is introduced into the pneumatic hammer (6).

Here, the buffer rod (5) is a plurality of fixtures 11 made of a metal material and a plurality of shock absorbing bands 12 of rubber or urethane material inserted between the fixtures 11 formed in the same position Integrally coupled by a bolt 16 inserted into the bolt insertion hole 18, a circular cross section of a predetermined size is drilled in the center of the fixing member 11 and the shock absorbing table 12 and connected to each other by an air passage ( 9) is formed.

A rubber or urethane bush 19 is inserted between the bolt insertion hole 18 and the bolt 16 formed in the fixing body 11 of the buffer rod 5 so that the bolt 16 is not worn.

In addition, the excavation rod (4) is a check valve (20 ') is installed on the air flow path (8) of the side connected to the buffer rod (5) to prevent the backflow of air during the concrete filling operation while continuously pneumatic hammer Ensure that high pressure air is supplied to (6).

Here, the concrete spraying method during the concrete filling operation in the ground using the pneumatic hammer-integrated ground excavation device 100 of the present invention, the excavation rod (4) having the injection port 13 on the side, and the bottom of the excavation rod (4) The excavation pipe (3) consisting of a pneumatic hammer (6) coupled to the descending from the ground surface and excavates the ground and then ascends to spray the concrete at high pressure with the injection hole 13, coupled to the lower end of the excavating rod (4) The air pressure hammer 6 is continuously introduced into the pneumatic hammer 6 so that the concrete is injected at a high pressure to the injection hole 13 of the excavating rod 4 while maintaining the inside of the pneumatic hammer 6 at a high pressure. It is characterized by preventing the concrete inflow into the interior of the pneumatic hammer (6).

Pneumatic hammer integrated ground excavation device 100 is to perform the ground excavation and concrete filling operation by one reciprocating movement, for this purpose, the excavation coupled to the excavation head (2) installed in the post (1) of the excavation device 100 Air, water, concrete, etc. are moved to the concrete flow path (7) and the air flow path (8) formed by combining a plurality of pipes (3) and the injection hole 13 is formed on the side to spray concrete to the outside The excavation rod (4), which is coupled to the excavation rod (4) detachably consists of a pneumatic hammer (6) for vibrating movement by the air flowing from the excavation rod (4) to excavate the ground.

Excavator 100 of the present invention is ground by the pneumatic hammer (6) is coupled between the excavating rod (4) and the pneumatic hammer (6) is a buffer rod (5) having a shock absorbing band 12 is inserted up and down The impact force generated during excavation is easily absorbed so that the excavation rod 4 or the pneumatic hammer 6 is not damaged.

Then, the excavation pipe (3) is lowered and the ground is excavated with the pneumatic hammer (6), and then the excavation pipe (3) is raised again to inject concrete at a high pressure into the injection hole (13) on the side of the excavating rod (4). When the concrete flow path (7) and the air flow path (8) is connected at the lower end of the excavating rod (4) so that concrete does not flow into the interior of the pneumatic hammer (6) when the external high pressure 5) The air pressure hammer (6) is connected to the air passage (9) formed inside the air through the concrete flow path (7) through the buffer rod (5) during the excavation work by the lowering of the excavating rod (4) When the concrete filling operation by the rise of the excavating rod (4) is to be introduced into the air pressure hammer (6) through the air flow path (8).

The excavation pipe (3) is connected to a plurality of excavation rod (4) connected to, as shown in Figure 1, the buffer rod (5) connected to the bottom of the excavation rod (4), the buffer rod (5) for excavation It consists of a pneumatic hammer (6) forming the end of the tube (3).

The excavating rod 4, the buffer rod 5, the pneumatic hammer 6, as shown in FIG. Allow replacement.

The buffer rod 5 is formed by inserting a shock absorbing band 12 of a predetermined thickness of a rubber material or a urethane material between a plurality of fixing bodies 11 made of a metal material, which is simply cushioned with a rubber material or a urethane material. When the rod 5 is formed, the pneumatic hammer 6 holds the position by the elastic property of the buffer rod 5 during the ground excavation work by vibrating movement of the pneumatic hammer 6 coupled to the lower end of the buffer rod 5. It's because you can't perform the job properly with shaking.

The fixing body 11 and the shock absorbing table 12 of the buffer rod are formed in the plurality of bolt insertion holes 18 in the same position as shown in Figure 3 to 5 so that the bolt 16 in the bolt insertion hole 18 It is inserted into and coupled with the nut 17 at the end, thereby being integrally coupled.

Here, since both the fixture 11 and the bolt 16 are made of metal, the bolt insertion hole 18 and the bolt formed in the fixture 11 as shown in FIG. 5 to prevent wear due to intermetal contact. Between the (16) is a bush 19 of rubber or urethane material is inserted.

In addition, an air passage 9 through which air is moved is formed in the center of the fixed body 11 and the shock absorbing table 12 by being connected to each other in a vertical section having a predetermined size.

1 to 3, the excavation rod 4 has a concrete flow path 7 formed at the inner center thereof, and an air flow path 8 formed at the outside of the concrete flow path 7.

In addition, the concrete flow path 7 and the air flow path 8 are connected to each other at the connection portion 10 at the end of the excavating rod 4 to be connected to the air passage 9 of the buffer rod 5 in series.

As described above, the air passage 9 of the buffer rod 5 connected to the flow passages 7 and 8 of the excavating rod 4 to introduce the air into the pneumatic hammer 6.

The pneumatic hammer 6 passes through the concrete flow passage 7 and the air flow passage 8 of the excavating rod 4, and then passes through the air passage 9 of the buffer rod 5, The bit 23 of the tip vibrates up and down by pressure to excavate the ground or to maintain a high pressure of a predetermined size or more.

That is, when the drilling pipe (3) is lowered from the ground surface, the high pressure air is supplied to the concrete flow path (7) of the excavating rod (4), the air supplied to the concrete flow path (7) It is introduced into the pneumatic hammer 6 through the air passage 9 of the buffer rod 5 to vibrate the bit 23 at the end.

When the excavation pipe 3 is raised in the basement, concrete is supplied to the concrete flow path 7 of the excavating rod 4 and sprayed to the outside through the injection hole 13 of the excavating rod 4. The concrete filling operation is performed, while the air is supplied to the air flow path 8 outside the concrete flow path 7 to assist the concrete being sprayed at a high pressure, while a certain amount of air flows downward to the buffer. The air passage 9 of the rod 5 is introduced into the pneumatic hammer 6.

As described above, the air introduced into the pneumatic hammer 6 through the air flow path 8 of the excavating rod 4 and the air passage 9 of the buffer rod 5 is the pressure inside the pneumatic hammer 6. It serves to maintain the high pressure, which is the outside of the excavation pipe (3) and the pneumatic hammer as the concrete is sprayed to the outside of the excavating pipe (3) at a high pressure as the outside becomes a high pressure above a certain pressure. This is because if the pressure difference in the inside of the 6 becomes greater than a predetermined size, the concrete may flow into the inside of the pneumatic hammer 6, thereby damaging the pneumatic hammer 6.

Here, a check valve 20 elastically supported by a spring 14 is installed in the concrete flow path 7 on the end of the excavating rod 4 to which the buffer rod 5 is connected, and the air flow path 8 has a ball type. A check valve 20 'is installed.

The spring 14 is inserted into the spring fixing tube 15 to elastically support the check valve 20. When the air is supplied in a regular size or when the concrete is not supplied, the check valve 20 is the spring. The fixed tube 15 is opened, and when concrete is supplied, a spring 14 having a spring coefficient of a size such that the check valve 20 closes the spring fixing tube 15 is used.

Accordingly, when air is supplied to the concrete flow path 7 in order to perform the excavation work by the excavation pipe 3 descends from the ground surface, the check valve 20 is opened to supply air to the pneumatic hammer 6. Is smoothly introduced, and when the excavation pipe (3) is raised in the basement to supply concrete to the concrete flow path (7) to perform the concrete filling operation check valve 20 by the weight of the concrete Is pushed downward so that the spring fixing tube 15 is sealed so that concrete does not flow into the lower side.

And, the ball-type check valve (20 ') installed in the air flow path (8) is the air flow path (8) so that the concrete is sprayed at a high pressure when the excavation pipe (3) is raised under the self to perform the concrete filling operation (8) When a part of the air supplied to) is introduced into the pneumatic hammer (6) via the buffer rod (5) serves to prevent the above-mentioned air flow back to lower the pressure of the pneumatic hammer (6).

As described above, the present invention maintains a high pressure state inside the pneumatic hammer 6 by continuously introducing a predetermined pressure or more into the pneumatic hammer 6 when performing the concrete filling operation using the ground drilling device 100. While the concrete is injected at a high pressure to the injection hole 13 of the excavating rod 4, the concrete inflow into the inside of the pneumatic hammer 6 due to the pressure difference between the outside of the excavating pipe 3 and the internal pressure of the pneumatic hammer 6 This will be prevented.

The present invention as described above is the end of the excavation pipe (3) of the excavating device 100 by bolting the excavation rod 4 and the pneumatic hammer (6) to the upper and lower ends of the shock absorbing rod 12 is formed buffer rod (5) By the additional assembly, the impact amount generated in the ground excavation by the pneumatic hammer 6 is absorbed by the buffer rod 5, thereby preventing damage to the excavating rod 4 or the pneumatic hammer 6.

In addition, the concrete flow passage 7 and the air flow passage 8 of the excavating rod 4 are connected to the air passage 9 inside the buffer rod 5 in a double manner to transfer the air pressure to the pneumatic hammer 6. When the excavation rod (4) is raised and the concrete filling operation is performed, the air pressure on the air flow path (8) is continuously supplied into the pneumatic hammer (6) to maintain high pressure. Of the pneumatic hammer 6 is prevented from entering the pneumatic hammer 6, thereby increasing the durability of the pneumatic hammer 6.

1 is a cross-sectional view of the end of the drilling device of the present invention

2 is an exploded cross-sectional view of the end of the drilling device of the present invention

Figure 3 is a detailed cross-sectional view of the end of the excavator installed with a buffer rod

4 is a detail view of "A-A" in FIG.

5 is a detail view of "B-B" of FIG.

6 is a detailed cross-sectional view of the check valve installed in the air flow path;

Figure 7 is a ground excavation state using the ground drilling device of the present invention

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

1: Post 2: Excavation Head

3: excavation pipe 4: excavation rod

5: buffer rod 6: pneumatic hammer

7: concrete flow path 8: air flow path

9: air passage 10: connection

11 fixed body 12 shock absorber

13 injection hole 14 spring

15: spring fixing tube 16: bolt

17 nut 18 bolt insertion hole

19: Bush 20, 20 ', 20 ": check valve

21: inner cylinder 22: piston

23: bit 100: excavator

Claims (4)

Air, water, concrete, etc. are moved to the concrete flow path (7) and the air flow path (8) formed by combining a plurality of excavation rod (4) for spraying concrete to the outside by the injection port 13 is formed on the side And, to the ground excavation device 100 is detachably coupled to the excavation rod 4 and the excavation pipe (3) is assembled with an air pressure hammer (6) vibrating movement by the air flowing from the excavation rod (4) In this case, between the excavating rod 4 and the pneumatic hammer 6, a buffer rod 5 having a predetermined length having a plurality of shock absorbing bands 12 is inserted and coupled thereto, and at the lower end of the excavating rod 4 When the concrete flow path 7 and the air flow path 8 are connected to each other and connected to the air passage 9 formed inside the buffer rod 5 in a double manner, when the excavation work by the lowering of the excavation pipe 3 Air supplied to the concrete flow path (7) flows through the buffer rod (5) to the pneumatic hammer (6) And such that, during the concrete filling operation by the increase of the drilling tube (3) for a pneumatic hammer-one ground-drilling rig, characterized in that the air supplied to the air flow (8) to be introduced into the pneumatic hammer (6). 2. The shock absorbing rod (5) according to claim 1, wherein the buffer rod (5) has a plurality of fixtures (11) made of metal, and a shock absorbing table (12) of rubber or urethane material inserted between the fixtures (11) at the same position. It is integrally coupled by bolts 16 inserted into a plurality of bolt insertion holes 18 formed, and a circular cross section of a predetermined size is drilled to the center of the fixing body 11 and the shock absorbing table 12 to be connected to each other. Air hammer integrated ground excavation device is formed with an air passage (9). According to claim 1, the excavating rod (4) is provided with a check valve (20 ') on the air flow path (8) on the side connected to the buffer rod (5) to prevent the backflow of air during the concrete filling operation The pneumatic hammer integrated ground excavation device for supplying high pressure air to the pneumatic hammer (6). The rubber or urethane bush 19 is inserted between the bolt insertion hole 18 and the bolt 16 formed in the fixing body 11 of the buffer rod 5, so that the bolt 16 is Pneumatic hammer integrated ground excavation device to prevent wear.