KR20100011540U - Cement paste venting road of ground drilling device - Google Patents

Abstract

The present invention relates to a cement pool discharge rod of the ground excavation device, the auger device which is installed to be moved up and down in a state suspended from the wire cable on the top of the leader installed perpendicular to the ground, and the rotational power from the auger device Rotator installed on the lower side of the auger device to be delivered, and 1 to 5 axes are selectively installed on the lower side of the rotator, the ground excavation rod and the ground excavation is assembled by connecting the connection rod, the stirring rod and the excavation rod in a multi-stage In the cement pool discharge device is assembled to the stirring rod of the rod,

The cement paste discharge device,

The lower part of the connecting rod is connected to the lower part of the connecting rod is formed to allow the connection connection, the circular protrusion protruding in the opposite direction of the circular joint, and the inside of the circular protrusion is inserted into the circular connector A circular rod having a supply passage formed to communicate with a central passage formed therein, and a plurality of movable splines formed to protrude in an axial direction on both outer sides of the circular protrusion;

Removably attached to the end of the circular protrusion of the circular rod with a plurality of assembly bolts, a plurality of connecting passages connected to the supply passage formed in the circular protrusions, and formed to penetrate toward both sides from the closed end of the connection passage A rotation check valve having a branch passage of the rotation check valve;

A cylindrical portion rotatably inserted and connected to the circular rod portion of the cylindrical rod, and a plurality of movable splines protruded on both sides of the circular protrusion of the cylindrical rod to protrude in the axial direction so as to face each other on the inner surface of the cylindrical rod. A plurality of fixed splines for controlling the rotation operation to the left, right side within a predetermined angle range, a plurality of discharge holes formed to penetrate both sides facing each other at the lower end of the cylindrical portion, and both inner surfaces perpendicular to the plurality of discharge holes A plurality of bypass passages, which are drilled to penetrate outwardly in the outer side and are sealed by plugs which are screw-assembled at the ends thereof, a mail joint protruding in the opposite direction of the cylindrical portion, and the plurality of bypass passages inside the mail joint. A mail rod having a discharge passage formed to communicate with a connection hole formed at each end;

The upper end of the circular protrusion of the wheel rod through a plurality of key insertion holes formed on both sides of the upper portion of the cylindrical portion to enable rotational movement within a range of a predetermined angle along the annular passage formed in a circular shape on the upper inner surface of the cylindrical portion of the mail rod. A plurality of rotation key blocks fixedly attached to both sides;

The invention is characterized in that it comprises a.

Ground Excavator, Ground Excavation Rod, Cement Pool Exhaust Rod, Wheel Rod, Mail Rod, Rotation Key Block, Rotation Check Valve, Connecting Rod, Stirring Rod, Excavation Rod

Description

Cement paste venting road of ground drilling device

The present invention relates to a cement pool discharge rod of the ground excavation device that is connected to the ground excavation rod for drilling the ground vertically connected to the lower side of the auger device, more specifically, the ground excavation operation while lowering the ground excavation rod When the cement pool is discharged from the auger head side formed at the bottom of the excavating rod, and when the soil excavation while raising the ground excavation rod, the cement pool is discharged from the upper side of the stirring rod to the cement pool discharge rod will be.

In general, a ground excavation device is used to improve a soft ground or a wet tidal flat or to build a continuous wall of water in the ground, and the ground excavation device is a crawler crane that runs on the ground, the crawler crane. Attached to the support arm formed at the tip of the leader (leader) is mounted vertically high on the ground, the auger device (auger machine) installed in the state suspended from the top of the leader to the lifting rope operation, the auger A rotator mounted on the lower side of the auger device so that power can be transmitted from the device, and one to five output shafts formed on the lower side of the rotator have spiral screws for discharging the excavated soil to the ground. Stirring rod with stirring blades for stirring rod and excavated soil and auger for digging soil The drilling rods having the rods and the excavation wings are provided with a multi-axis ground excavation rod installed in a vertically connected multi-stage assembled structure, wherein the multi-axis ground excavation rod is connected and assembled in the middle of the connection rod connected to the upper side. The passages for supplying cement paste are formed one by one at the center of each of the stirring rods and the drilling rods connected to the lower side.

When the ground drilling device of the prior art as described above is excavating the ground in such a way that the cement paste injected through the supply passage formed in the center of the ground drilling rod is stirred and mixed with the soil excavated through the auger head for excavating the ground Although soft ground has been improved or underground water barriers have been constructed, such ground excavation rods in the conventional ground excavation device are formed in the center of each of the connection rods, stirring rods, and excavating rods of cement paste to be supplied to the excavated soil. As it is discharged only through the auger head of the excavating rod assembled at the lower end through the supply passage, when the ground excavation operation is carried out while the ground excavation rod is lowered, the cement pool is mixed evenly and mixed with the soil to be excavated by the auger head. Soil and cement paste mix Although the anti-work could be better to some extent stop the ground excavation work cement paste it is continuously discharged through the auger head, even when the soil to raise the drilling rod had been pointed out as a disadvantage that it can not be stirred.

Therefore, the inventor of the present invention has improved the ground excavation rod of the conventional ground excavation device as described above has proposed a ground continuous wall construction device (hereinafter referred to as 'prior art') of Patent No. 042486.

10 and 11, the cement paste discharge device 120 is disposed between the upper end portion 110a and the middle portion 110b of the stirring rod for stirring the excavated soil from the auger head formed at the lower end of the drilling rod as shown in FIGS. 10 and 11. ) Is connected and assembled, the inner insert (120a) of the cement paste discharge device 120 is connected by welding to the lower end of the upper end (110a) of the stirring rod, the external ruler of the cement pool discharge device (120) 120b is connected to the upper end of the middle portion (110b) of the stirring rod in the state where the inner insert (120a) is inserted into the slide movement, the supply passage formed in the center of the inner insert (120a) ( Branch passages 171 for discharging the cement paste are formed at both sides of the lower end of 170, and discharge holes 200 are formed at both sides of the middle portion of the outer hanging member 120b, and the outer hanging member 120b. On both sides of the lower part of the Induction passages 210 are formed in communication with branch passages 171 formed on both sides of the lower end of the insert 120a, and the both side guidance passages 210 are discharge passages formed at the bottom of the outer support body 120b. 220 is connected to the structure.

In addition, the cement paste discharge device 120 of the prior art has two binding pins 150 that are fitted to penetrate through the outer rubbing member 120b, respectively, the binding grooves 160 formed on each of both outer sides of the inner insert 120a. By assembling so as to pass the outer stopper (120b) is to be assembled so that the slide movement up and down within the range that both the binding pins 150 are caught on the upper and lower ends of the two binding grooves (160).

Therefore, the cement pool discharge device 120 of the prior art configured as described above when the reaction force of the ground layer to be excavated to the auger head during the operation of the ground excavation acts as an external ruler of the cement pool discharge rod 120 as shown in FIG. 120b) is moved upward in the state that the binding pin 150 is located at the upper end of the binding groove 160, and thus both branch passages 171 formed at the lower end of the supply passage 170 of the inner insert (120a) is It is in a state of communicating with both side guide passages 210 formed in the outer hanging body (120b). Therefore, the cement paste supplied to the supply passage 170 is discharged to the discharge passage 220 through the induction passage 210 and supplied to the auger head, so that the cement paste discharged from the auger head excavating the ground is excavated during the ground excavation operation. It is a state which is mixed and stirred by the earth and sand which become.

In addition, when the ground excavation rod is rotated while the ground excavation rod is completed, and the reaction force of the strata does not act on the auger head, the external housing 120b of the cement paste discharging device 120 as shown in FIG. In this case, the binding pin 150 is moved downward only to the position that is engaged with the lower end of the binding groove 160, and thus both sides formed at the lower end of the supply passage 170 of the inner insert 120a. Branch passage 171 is in communication with the discharge hole 200 formed on both sides of the outer ruler (120b), so that the cement pool supplied to the supply passage 170 is discharged on both sides formed in the outer ruler (120b) Since it is discharged through 200) it is possible to stir evenly so that the cement paste evenly mixed in the soil when raising the ground drilling rod.

However, the prior art as described above is enough to counteract the pressing pressure of the auger head when the ground layer to be excavated is pressed by the auger head of the excavating rod connected to the bottom of the ground excavation rod to excavate the ground. In the cement strata showing the reaction force, the cement paste discharging device 120 operates normally, so that the cement paste can be discharged from the auger head during the ground excavation operation. However, the ground does not exhibit a reaction force against the pressing pressure of the auger head. In the soft strata such as the mud so much water, the cement paste discharge device 120 malfunctions, that is, the reaction force of the strata does not appear in the auger head, so the external housing 120b of the cement paste discharge device 120 is auger. Middle portion 110b of the stirring rod connected integrally with the head and the lower end of the stirring rod (not shown) Sliding downward from the inner insert (120a) by the weight of the excavating rod, the auger head will appear so that both branch passages 171 formed on the inner insert (120a) is discharged on both sides of the outer hanging body (120b) Cement paste discharge device is connected between the upper end portion (110a) and the middle portion (110b) of the stirring rod without the cement pool is discharged from the auger head during the operation of the ground excavation operation (see Fig. 11) It is pointed out that a problem arises that the closed end discharged from 120) occurs frequently when improving the shore ground or constructing a continuous wall of underground water barriers.

The present invention has been proposed in order to solve the general problems appearing in the prior art as described above, the cement grass to always excavate the ground during the excavation operation to excavate the ground regardless of the strength of the ground, such as soft ground or wet tidal flat It is agitated to be evenly mixed in the excavated soil by being discharged only through the auger head, and when the ground excavation rod is raised after the ground excavation operation is completed, the cement excavation rod is lifted by discharging it from the middle or the upper side of the stirring rod. The cement pool can be mixed and agitated evenly in the soil so that the soft ground can be improved to the rigid strength as designed, and the underground water barrier can be used to construct the continuous wall. To help build the system to the right strength for your design Teupul to the invention aims to provide a discharge load.

The present invention as a means for pursuing the above object,

An auger installed on an upper end of a leader installed vertically on the ground and capable of lifting and lowering, a rotator installed at a lower side of the auger so as to receive rotational power from the auger, and the rotator 1 to 5 shafts are selectively installed on the lower side of the ground, and the ground rod excavation rod is connected to the ground rod and the ground rod is connected to the stir rod of the ground excavation rod and the connecting rod and the stirring rod and the excavating rod are connected in multiple stages In the rod,

The cement paste discharge rod,

The lower part of the connecting rod is connected to the lower part of the connecting rod is formed to allow the connection connection, the circular protrusion protruding in the opposite direction of the circular joint, and the inside of the circular protrusion is inserted into the circular connector A circular rod having a supply passage formed to communicate with a central passage formed therein, and a plurality of movable splines formed to protrude in an axial direction on both outer sides of the circular protrusion;

Removably attached to the end of the circular protrusion of the circular rod with a plurality of assembly bolts, a plurality of connecting passages connected to the supply passage formed in the circular protrusions, and formed to penetrate toward both sides from the closed end of the connection passage A rotation check valve having a branch passage of the rotation check valve;

A cylindrical portion rotatably inserted and connected to the circular rod portion of the cylindrical rod, and a plurality of movable splines protruded on both sides of the circular protrusion of the cylindrical rod to protrude in the axial direction so as to face each other on the inner surface of the cylindrical rod. A plurality of fixed splines for controlling the rotation operation to the left, right side within a predetermined angle range, a plurality of discharge holes formed to penetrate both sides facing each other at the lower end of the cylindrical portion, and both inner surfaces perpendicular to the plurality of discharge holes A plurality of bypass passages, which are drilled to penetrate outwardly in the outer side and are sealed by plugs which are screw-assembled at the ends thereof, a mail joint protruding in the opposite direction of the cylindrical portion, and the plurality of bypass passages inside the mail joint. A mail rod having a discharge passage formed to communicate with a connection hole formed at each end;

The upper end of the circular protrusion of the wheel rod through a plurality of key insertion holes formed on both sides of the upper portion of the cylindrical portion to enable rotational movement within a range of a predetermined angle along the annular passage formed in a circular shape on the upper inner surface of the cylindrical portion of the mail rod. A plurality of rotation key blocks fixedly attached to both sides;

And a control unit.

In addition, the plurality of key insertion holes formed on both sides of the upper end of the cylindrical portion of the mail rod is characterized in that it is configured to be sealed by a plurality of sealing covers that are fixedly fixed with a bolt.

In addition, each of the plurality of discharge holes formed on both sides of the lower end of the cylindrical portion of the mail rod is characterized in that the elastic disk packing is attached to enable the opening and closing operation.

According to the present invention, even when the ground excavation operation is performed at the construction site to improve the soft ground or the construction site where the underground water barrier is constructed, the ground excavation is not enough to show the reaction force during the excavation operation of the auger head. The cement paste supplied to the inside of the rod is discharged from the auger head, thereby providing an effect of evenly mixing the cement paste in the soil of the soft layer.

Detailed description of the cement pool discharge rod of the ground drilling apparatus according to the present invention will be described in detail according to the accompanying drawings.

1 is a side view showing the installation of the ground drilling device of the present invention, Figure 2 is a diagram showing the installation state of cement pool discharge rod connected to the ground drilling rod of the ground drilling device of the present invention, Figure 3 is the cement of the present invention 4 and 5 are operation state diagrams of the rotation key block shown in the cross-sectional view taken along the line AA of FIG. 3, and FIGS. 6 and 7 are the operation shown in the cross-sectional view taken along the line BB of FIG. 8 is a diagram illustrating an operation state of the spline, and FIGS. 8 and 9 are diagrams illustrating an operation state of the rotation check valve shown in a cross-sectional view taken along line CC of FIG.

Reference numeral 1 in the drawings represents a cement pool discharge rod.

The cement pool discharge rod 1 is pulled downward from the top of the leader 21, which is supported by the tip support arm and the stay of the crawler crane 20 running on the ground and fixed vertically installed Ground which is selectively installed downward from 1 axis to 5 axes on the bottom of the rotator 24 installed on the lower side of the auger device so as to receive the rotational power from the auger device 23 installed to perform the lifting operation in the suspended state. Connected to the excavation rod 25, the ground excavation rod 25 is connected to the output shaft formed on the bottom of the rotator 24 in one or more stages of the connecting rod 26 and the connecting rod 26, It is composed of a stirring rod 27 is assembled and connected to the lower end of the excavation rod 28 is assembled and connected to the bottom of the stirring rod, the cement pool discharge rod 1 of the present invention is a connection rod 26 and the stirring furnace And in an embodiment the assembly is connected between the (27).

In addition, an auger head 29 is formed at the lower end of the excavating rod 28, and each connecting rod 26 connected to the ground excavating rod 25 in multiple stages has no screw blade. In addition, the stirring rod 27 and the excavating rod 28 has an embodiment in which a plurality of agitating blades and a digging blade having an excavating function protrude a plurality of excavated soil.

Features of the present invention, the cement paste discharge rod 1 is a cement paste supplied through a swivel formed on the upper surface of the rotator 24 when excavating the ground while operating the ground drilling rod 25 in the forward rotation Through the auger head 29 formed at the bottom of the excavation rod 28 of the ground excavation groove 25 to be discharged toward the excavated soil, so that the cement pool can be mixed evenly in the soil, and after the ground excavation operation is completed When the excavating rod 25 is operated in the reverse rotation while the excavating rod 25 is raised, the cement paste is discharged between the connecting rod 26 and the stirring rod 27, so that the stirring rod 27 is removed even when the ground excavating rod 25 is pulled out. And it is to be able to evenly mix the cement paste in the soil by the rotary operation of the stirring blades formed on the excavation rod 28, respectively.

To this end, the cement pool discharge rod (1) and the ground rod (female rod: 3) and ground excavation rod is assembled to the lower connection portion 261 formed at the bottom of the connection rod 26 of the ground excavation rod (25) The connecting rod (male rod: 4) connected to the upper connecting portion formed at the upper end of the stirring rod 27 has a structure in which the assembly is connected.

The upper end of the circular rod (3) is formed with a circular joint 31 which is connected to the lower connecting portion 261 formed at the bottom of the connecting rod 26 of the ground excavation device (25), the lower circular protrusion ( 32) protrude.

In addition, the circular protrusion 32 of the wheel rod 3 is provided with a supply passage 33 in communication with the central passage 262 formed in the lower connection portion 261 of the connecting rod 26, the outside of the The movable splines 34 protruding from both sides symmetric to each other are formed long in the axial direction.

The rotation check valve 5 is fixedly attached to the lower end of the circular protrusion 32 of the wheel rod 3 by a plurality of assembly bolts 51, and the rotation check valve 5 is a wheel rod 3. It rotates together during the rotation operation. In addition, the rotation check valve 5 is formed with a connection passage 52 which is connected to the supply passage 33 of the circular protrusion 32, and toward the outside from the position adjacent to the closed end of the connection passage 52 A plurality of branch passages 53 penetrating to both sides are formed.

The mail rod 4 has a cylindrical portion 41 to which the circular protrusion 32 of the wheel rod 3 is rotatably inserted, and both sides of the rotation check valve 5 below the cylindrical portion 41. The plurality of discharge holes 42 and the plurality of bypass passages 43 are formed to penetrate outwardly in a state orthogonal to each other so as to communicate with the branch passages 53. Each of the elastic disk packing 44 made of rubber-based material is attached to be elastically opened and closed, and plugs 45 are screw-assembled and closed at ends of the plurality of bypass passages 43, respectively.

The elastic disk packing 44 which elastically opens and closes the plurality of discharge holes 42 in the above-described case, while the ground drilling rod 25 rotates in the forward direction (clockwise in the drawing) while the ground drilling operation is performed, each discharge hole ( 42) to the state of closing, on the contrary, when the ground drilling rod 25 is rotated in the reverse direction (counterclockwise in the drawing), the elastic disk to be in a state capable of opening each discharge hole (42) One end of each of the packing 44 is composed of a fixed end attached to one side of the outer periphery of the discharge hole 42 by a bolt or the like, while the other end is configured as a free end to elastically open and close the discharge hole 42. have.

In addition, one connection hole 46 is formed inside each of the plugs 45 assembled to close the ends of the plurality of bypass passages 43, and the connection hole 46 includes a mail rod 4. It is configured to communicate with the discharge passage 48 formed in the male joint 47 of the.

In addition, a plurality of fixed splines 49 protruding inward toward the center of the cylindrical portion 41 on both sides of the inner surface of the mail rod 4 protrude inwards. The plurality of movable splines 34 protruding from the outer surface of the circular protrusion 32 are caught when the wheel rod 3 is rotated at a predetermined angle (about 90 °) in the forward or reverse direction. If the movable spline 34 is caught by the fixed spline 49 when the rotating) rotates, the wheel rod 3 and the mail rod 4 rotate together in the same direction.

And the circular rod 3 and the male rod 4 of the cement pool discharge rod 1 is rotatably connected by a plurality of rotation key block (6).

The plurality of rotation key blocks 6 are fastened to the upper end of the circular protrusion 32 of the wheel rod 3 through a plurality of key insertion holes 61 formed on both sides of the upper end of the cylindrical portion 41 of the mail rod 4. It is screwed in a fixed state by a bolt 62, and is connected to a plurality of key insertion holes 61 on the upper inner surface of the cylindrical portion 41 to rotatably support the plurality of rotation key blocks 6. An annular passage 63 is formed.

In addition, the outer cover of each of the plurality of key insertion hole 61 is fixed to the cover 64 by a bolt so that the soil excavated during the ground excavation operation does not flow into the key insertion hole 61.

The operation of the present invention configured as described above will be described.

First, a description will be given of the progress of the ground excavation operation by the ground excavation device.

When the ground excavation operation is to proceed, the auger device 23 is gradually lowered, and the auger head 29 of the excavating rod 28 is ground when the ground excavation rod 25 is rotated in a forward direction (clockwise). The excavation wing and the stirring blades formed on the auger head 29 is excavated to mix and excavate the excavated soil, such as when the ground excavation rod 25 proceeds to the ground excavation operation lower connection rod 26 And a plurality of movable splines 34 protruding outside the circular projection 32 of the whim rod 3 of the cement pool discharge rod 1 assembled between the upper end of the stirring rod 27 are formed of the mail rod 4. The cylindrical portion 41 is caught in a plurality of fixed splines 49 protruding on the inner surface (see FIG. 6), thereby the wheel rod 3 and the mail rod 4 of the cement pool discharge rod 1. Is to be rotated in the forward direction (clockwise) with the ground drilling rod 25 The rotation check valve 5 is fixed to the lower end of the circular protrusion 32 when the cement paste discharge rod 1 is rotated in the forward direction while the movable spline 34 is locked to the fixed spline 49. ) Blocks the plurality of discharge holes 42 formed at the lower end of the cylindrical portion 41 of the mail rod 4, while the plurality of branch passages 53 are connected to the bypass passage 43. See FIG. 8)

Therefore, when the excavation rod 28 rotates in the forward direction and the excavation is performed at a predetermined depth, the cement paste injected into the connecting rod 26 through the swivel (not shown) formed on the upper surface of the rotator 24 is connected to the connecting rod ( 26 is injected into the supply passage 33 formed in the wheel rod 3 of the cement pool discharge rod 1 through the central passage 262 formed in the interior of the cement pool, and the cement paste injected into the supply passage 33. The silver joint (47) of the mail load (4) passes through the connecting passage (52) of the rotation check valve (5) → the plurality of branch passages (53) → the plurality of bypass passages (43) → the plurality of connecting holes (46). ) Is discharged to the outside through the discharge hole of the auger head 29 is connected to the passage formed in the inner center of the drilling rod 28 through the discharge passage 48 formed in the inside, the discharge from the auger head 29 The cement paste is mixed with the earth and sand excavated by the auger head 29 As will be evenly mixed with the soil it is stirred with excavated earth and sand by the stirring blade.

On the other hand, the cement pool discharge rod (1) is connected to the top of the connection rod 26, the bottom of the whim rod (3) and the stirring rod 27 is connected to the upper rod 4 is connected by the rotation key block (6) The rotation key block 6 is a circular protrusion 32 of the wheel rod 3 in a state capable of rotational movement along the annular passage 63 formed at the upper end of the inner surface of the cylindrical portion 41 of the mail rod 4. Since it is fixedly attached to the top, regardless of the strength of the ground to be excavated, it is possible to discharge the cement paste through the auger head 29 formed at the bottom of the excavation roll 28 during the ground excavation operation.

Next, a description will be given when the ground excavation rod 25 is pulled out after the ground excavation operation is completed.

As above, when the ground excavation operation to the set depth is completed by rotating the ground excavation rod 1 forward, the auger device 23 is gradually raised and the ground excavation rod 1 is reversed (counterclockwise). The ground excavation rod 25 is pulled out while rotating, and the cement paste discharge rod 1 is rotated by a fastening bolt 62 on the top of the circular protrusion 32 of the wheel rod 3. Since the block 6 supports the annular passage 63 formed at the upper end of the inner surface of the cylindrical portion 41 of the mail rod 40, the rotation key block 6 is annular when lifted to pull out the ground excavation rod 25. The withdrawal operation is performed in the state in which the rotation is moved at a predetermined angle inside the passage 63. (See FIG. 5).

When the auger device 23 starts to rotate in the reverse direction, the cement pool discharge rod 1 also rotates in the reverse direction together with the ground excavation rod 25. In this case, the wheel of the cement pool discharge rod 1 is rotated. When the rod 3 is rotated in the reverse direction (counterclockwise), the plurality of movable splines 34 protruding from the circular protrusion 32 of the wheel rod 3 are rotated in the reverse direction by a predetermined angle (Fig. 7). Reference) is caught by a plurality of fixed splines 49 protruding from the inner surface of the cylindrical portion 41 of the mail rod 4, and thus the movable spline 34 is caught by the fixed spline 49. The wheel main rod 3 and the mail rod 4 rotate together in the reverse direction. In this case, the rotation key block 6 fixedly attached to both sides of the top of the circular protrusion 32 of the wheel rod 3 has a mail rod. In the state supported by the annular passage 63 formed in the upper end of the cylindrical part 41 of (4). The rotational check valve 5 at a predetermined angle (approximately 90 °) is rotated (see FIG. 5), and the rotation check valve 5 at the lower end of the circular protrusion 32 is also rotated at a predetermined angle. The plurality of bypass passages 43 are formed in communication with the plurality of discharge holes 42 formed at the lower end of the cylindrical portion 41 of the male rod 4, and formed in the cylindrical portion 41 of the male rod 4. Is blocked by the rotation check valve (see Fig. 9).

Therefore, the cement paste injected through the central passage 262 formed in the lower connection portion 261 of the connecting rod 26 passes through the supply passage 33 of the wheel rod 3 of the rotation check valve 5. It is discharged to the outside through the plurality of discharge holes 42 formed in the mail rod 4 through the plurality of branch passages 53 penetrating both sides of the connecting passage 52, and thus formed in the mail rod 4 Cement paste discharged through the discharge hole 42 of the discharged again from the upper side of the stirring rod 27, the cement paste discharged in this way to the earth and sand again by the stirring blades of the stirring rod 27 to rotate while operating By mixing and agitating, the soft ground improvement work or the roof water film exhibits the characteristic that the construction work of the continuous wall can be carried out with the strength suitable for the design.

On the other hand, when the cement pool is discharged to the plurality of discharge holes 42 formed in the cement pool discharge rod 1 in the process of drawing the ground drilling rod 25 upward as described above, the elastic disk by the discharge pressure of the cement pool Since the packing 44 is opened, the cement paste is discharged smoothly. At this time, the cement paste discharge rod 1 is rotated in the reverse direction so that the elastic disk packings 44 that are opened are subjected to earth pressure. Since the elastic disk packing 44 is made of a material having a flexible elasticity, while the discharge operation of the cement paste into the discharge hole 43 is continued, the state in which the elastic disk packing 44 may be bent in the opposite direction of rotation by earth pressure may be maintained. The phenomenon of (cutting) does not appear.

The elastic disk packing 44 blocks the discharge hole 42 by its elastic restoring force when the discharge operation of the cement paste is finished, and the cement paste discharge rod 1 rotates in the forward direction during the ground excavation operation. At this time, the earth pressure acting on the elastic disk packing 44 acts in a direction to block the discharge hole 42, so that the phenomenon of earth and sand entering the discharge hole 42 can be prevented.

In the above embodiment, the cement pool discharge rod (1) has been described as being used for the purpose of hardening the weedy ground layer by discharging the cement paste to the soil excavated in the improvement work of the soft ground or the underground water film continuous wall construction work, It can also be used for discharging pneumatics or chemicals in addition to cement pools during ground improvement construction or underground wall construction.

Figure 1 is a side view showing the installation state of the ground excavation device of the present invention

2 is an installation state of the cement pool discharge rod is assembled to the ground drilling rod of the ground drilling device of the present invention

Figure 3 is a half cross-sectional view for showing the configuration of the cement pool discharge rod of the present invention

4 and 5 is an operating state diagram of the rotation key block shown in section A-A of FIG.

6 and 7 are operating state diagrams of the movable spline shown in section B-B of FIG.

8 and 9 are views showing the operation of the rotation check valve shown in the sectional view taken along the line C-C of FIG.

10 and 11 is an operating state of the cement pool discharge device of the prior art

[Description of Drawings]

1: cement pool discharge rod 25: ground drilling rod

26: connecting rod 27: stirring rod

28: excavation rod 29: auger head

3: FEMALE LOAD 31: FEMALE JOINT

32: circular protrusion 33: supply passage

34: movable spline 4: mail load

41: cylindrical portion 42: discharge hole

43: bypass passage 44: elastic packing

45: plug 46: connector

47: mail joint 48: discharge passage

49: fixed spline 5: rotation check valve

52: connecting passage 53: branch passage

6: rotation key block 61: key insertion hole

62: bolt 63: annular passage

64: airtight cover

Claims (3)

An auger installed on an upper end of a leader installed vertically on the ground and capable of lifting and lowering, a rotator installed at a lower side of the auger so as to receive rotational power from the auger, and the rotator 1 to 5 shafts are selectively installed on the lower side of the ground, and the ground rod excavation rod is connected to the ground rod and the ground rod is connected to the stir rod of the ground excavation rod and the connecting rod and the stirring rod and the excavating rod are connected in multiple stages In the rod, The cement paste discharge rod, The lower part of the connecting rod is connected to the lower part of the connecting rod is formed to allow the connection connection, the circular protrusion protruding in the opposite direction of the circular joint, and the inside of the circular protrusion is inserted into the circular connector A circular rod having a supply passage formed to communicate with a central passage formed therein, and a plurality of movable splines formed to protrude in an axial direction on both outer sides of the circular protrusion; Removably attached to the end of the circular protrusion of the circular rod with a plurality of assembly bolts, a plurality of connecting passages connected to the supply passage formed in the circular protrusions, and formed to penetrate toward both sides from the closed end of the connection passage A rotation check valve having a branch passage of the rotation check valve; A cylindrical portion rotatably inserted and connected to the circular rod portion of the cylindrical rod, and a plurality of movable splines protruded on both sides of the circular protrusion of the cylindrical rod to protrude in the axial direction so as to face each other on the inner surface of the cylindrical rod. A plurality of fixed splines for controlling the rotation operation to the left, right side within a predetermined angle range, a plurality of discharge holes formed to penetrate both sides facing each other at the lower end of the cylindrical portion, and both inner surfaces perpendicular to the plurality of discharge holes A plurality of bypass passages, which are drilled to penetrate outwardly in the outer side and are sealed by plugs which are screw-assembled at the ends thereof, a mail joint protruding in the opposite direction of the cylindrical portion, and the plurality of bypass passages inside the mail joint. A mail rod having a discharge passage formed to communicate with a connection hole formed at each end; The upper end of the circular protrusion of the wheel rod through a plurality of key insertion holes formed on both sides of the upper portion of the cylindrical portion to enable rotational movement within a range of a predetermined angle along the annular passage formed in a circular shape on the upper inner surface of the cylindrical portion of the mail rod. A plurality of rotation key blocks fixedly attached to both sides; Cement pool discharge rod of the ground excavation device comprising a. The method of claim 1, The plurality of key insertion holes formed on both sides of the upper end of the cylindrical portion of the mail rod is cement pool discharge rod of the ground excavation device, characterized in that configured to be closed by a plurality of sealing covers that are fixedly attached with a bolt. The method of claim 1, Cement pool discharge rod of the ground excavation device, characterized in that the elastic disk packing is attached to each of the plurality of discharge holes formed on both sides of the lower end of the cylindrical portion of the mail rod to enable the opening and closing operation.

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