KR101284109B1 - The excavating and agitating rod for using discharge direct or inverse - Google Patents

Abstract

PURPOSE: An excavation stirring rod for forwardly and reversely discharging is provided to generally improve productivity by reducing manufacturing processes, manufacturing times, and work costs with a simple structure. CONSTITUTION: An excavation stirring rod (50) for forwardly and reversely discharging comprises flange joints (53a,53b), hanging stoppers (61a,61b,62a,62b), circumference excavating blades (60a,60b), and top and bottom fixing flanges (55a,55b). A flange joint comprises a sludge injection passage (51) and slurry outlets (52a,52b). The flange joint rotatably joins each circumference excavating blade to top and bottom ends of a slurry outlet. A hanging stopper is installed in the top and bottom of each flange joint. The circumference excavating blade rotates into the same direction as the excavation stirring rod through the hanging action of rotary hindrance by the hanging stopper. The circumference excavating blade is fixed to the outer circumference of each flange joint. The top and bottom fixing flanges are fixed each flange joint and are equipped with a flange slurry outlet to correspond to the slurry outlet.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to an excavating and agitating rod for direct-

The present invention relates to a digging agitation rod for normal and constant discharge, which is used for constructing a reinforcing body such as a pile or a water wall in a perforated ground sheet by mixing and agitating soil particles formed by crushing the texture of the ground to improve soft ground, And more particularly to a digging and agitating rod for rectilinear discharging coupled to a lower end of a screw rod of a ground excavation apparatus composed of a post frame, an upper, a lower auger, a screw rod and an auger casing, A slurry discharge port is provided at the upper and lower ends of the outer circumferential surface so as to be communicated with the injection path and a flange coupling part for rotatably flanging the circumferential drilling vanes at the upper and lower ends of the slurry discharge port is formed, And a latching stopper is mounted and fixed to the latching stopper, The circumferential excavating vane is bolted to the outer circumferential surface of each flange coupling portion so that the circumferential excavating vane rotates in the same direction as the rotating direction of the excavating stirring rod, and at the same time, the flange slurry outlet port corresponding to the slurry discharge port And the lower and upper fixing flanges are coupled to each other, the structure itself is simpler than that of the conventional ground excavating stirring rod, and the work process and manufacturing time for manufacturing the same are shortened, and the work cost is reduced to improve the overall productivity. A flange slurry formed at the center of the upper and lower fixing flanges respectively rotating in the same direction as the rotating direction of the excavating stirring rod through the action of engaging rotation interference by the engagement stopper in the forward and reverse rotations of the excavating stirring rod by the upper auger The slurry soil formed on the circumferential surface and the lower end of the excavation stirring rod, The slurry is sprayed from the upper side slurry discharge port which mutually coincided with each other before the forward slurry is excavated and the slurry is sprayed from the lower side slurry discharge port which mutually coincide with the reverse rotation when the slurry is pulled up, The present invention relates to a digging agitation rod for rectilinear discharging capable of increasing the agitation efficiency of a high-quality reinforcing body having a low unbalance in strength.

Generally, in order to construct a building on a soft ground, a reinforcing body such as a high-strength columnar or rectangular-shaped pile body or a water wall to block water is installed so that the support of the building can be securely supported, .

As a means for constructing the reinforcing member in such a soft ground, a stirring rod for ground excavation is used which is coupled to the connecting rod of the ground excavation apparatus and pierces the soft ground, that is, the ground surface of the ground floor at a predetermined size and a predetermined depth. In the case of the above-mentioned stirring rod for ground excavation, a plurality of stirring blades are welded and fixed at a predetermined angle and direction and intervals on the circumference of the rod, and the excavating bit is fixed to the lowermost end thereof, And the cement-based high-fire slurry injected from the agitation rod for excavation of the ground is mixed and agitated to construct a high strength reinforcement body.

However, in the conventional stirring rod for ground excavation, as the excavating bit is injected through the lowermost discharge port welded and fixed, the cement-based high-fire slurry injected from the soil particles is mixed and stirred only during excavation of the stirring rod for excavating the ground, When the stirring rod for ground excavation is lifted up to the ground, the cement-based high-fire slurry is not sprayed at all and the stirring efficiency between the soil particles and the slurry due to the secondary mixing agitation between the soil particles and the slurry is not significantly However, there is a great problem that it is inevitable to construct an unbalanced reinforcement body through this.

In order to solve the above problems, a high-pressure injection injection method and apparatus (Patent Publication No. 2002-35082) disclosed in May 09, 2002 have been proposed, Pressure spraying machine equipped with a high-pressure spraying rod, a second step of cutting the ground by rotation of the high-pressure spraying rod and excavating bits attached to the tip of the high-pressure spraying rod, And a third step of crushing the ground while spraying the cement and admixture from the lowest point of the crusher and stirring the crushed ground particles, cement, admixture and the like to produce an improved casting. In the high pressure injection injection method, The swivel is fixed to the coupling of the injection machine and the high-pressure injection rod is joined to the lower end of the plurality of high-pressure injection rods which are connected to the swivel by a required depth, The air and the admixture are sent to the air supply pipe and the admixture supply pipe while rotating the high-pressure jetting rod of the air-jet type, and the air and the admixture are sprayed to the injection port formed at the both ends of the upper excavation wing and air and cement are sent to the air supply pipe and the cement supply pipe, The cement and air are sprayed through the injection holes formed at both ends of the wing, and the ground particles, cement and admixture of the ground are crushed by the upper excavation wing and the lower excavation wing to generate the modified excavation wedge.

However, in the case of the conventional high-pressure injection apparatus, since the injection holes are formed at both ends of the upper excavation blade and both end portions of the lower excavation blade, the rotation of the upper and lower excavator blades due to the rotation of the air- There is a problem in that the crushed formed particle is directly introduced into the discharge port to block each injection port by the particle, and the discharge pressure of the slurry due to clogging of the discharge port by the particle is also increased.

In addition, in the case of the airfoil type high-pressure injection rod, since injection ports are formed at both ends of the upper excavation vane and both end portions of the lower excavation vane as described above, air and an admixture are injected at the injection port formed at both ends of the upper excavation vane, Since the admixture and the cement are injected separately through the injection holes such as the air and the cement are injected at the injection holes formed at the both ends of the excavation wing, the structure of the conventional high pressure injection injection device including the airfoil high pressure injection rod becomes very complicated In addition, there was also a problem that the overall size was too large.

In order to solve the problem of the conventional high-pressure injection injector as described above, a "stirring rod for ground excavation (patent registration No. 1052548) ", which was filed by the present applicant and patented, An inner injection rod having a sludge injection flow path therein and a ground excavation blade in which a ground excavation blade or excavation bit is integrated, Wherein a discharge port of the cement-based solid-fuel slurry is formed on the circumferential surface of the outer-side excavating stirring rod having the vanes, respectively, and a discharge port is formed so as to be positioned respectively above and below the excavating- And the upper and lower discharge ports formed on the circumferential surface of the outer-side excavating stirring rod rotating in the same direction, Image formed on the main surface, a lower discharge port are each configured to achieve a match.

However, in the case of the above-mentioned agitation rod for ground excavation, the inner injection rod having the sludge injection flow path therein is inserted into the outer excavation stirring rod having the ground excavation blade or the excavation stirring vane integrated with the excavation bit And one of the tubes is formed so as to rotate in the same direction as the respective rotation directions by means of the clutches formed at the upper ends thereof in the state that the other one of the rods The two rods need to be prepared. In addition, the two rods are coupled to each other at the upper end of the rod so as to transmit power from the inner injection rod to the outer side of the stirring rod. That is, the upper end of each of the outer excavation stirring rods and the inner injection rods A coupling groove and an engaging groove for coupling the rotational force of the inner injection rod to the outer excavation stirring rod to be coupled to the upper and lower circumferential surfaces thereof, The entire structure itself is very complicated and the work process and the manufacturing time are long for manufacturing the same. In addition, since the work unit cost and the manufacturing cost There is a great problem that the overall productivity is greatly deteriorated due to an increase in the unit price.

In order to solve the above-mentioned conventional problems, the present invention, which is conceived to solve the above-mentioned conventional problems, is characterized in that the excavating stirring rod for forward and reverse discharging coupled to the lower end of the screw rod among the ground excavation apparatuses has a sludge injection channel, Wherein a slurry discharge port is provided at the upper and lower ends of the main surface and flange coupling parts for pivotably coupling the circumferential excavating blades to the upper and lower ends of the slurry discharge port are formed in the flange coupling parts, The circumferential excavating vane is bolted to the outer circumferential surface of each of the flange engaging portions so that the circumferential excavating vane rotates in the same direction as the rotating direction of the excavating stirring rod through the engagement action of the rotation interference by the engaging stopper, The upper and lower fixing flanges provided with the flange slurry discharge port corresponding to the discharge port According to the present invention, it is possible to simplify the structure itself as compared with conventional ground excavation stirring rods, and to reduce the work process and manufacturing time for manufacturing the same, as well as to reduce the work cost and thereby improve the overall productivity.

In addition, in the present invention, the center of the upper and lower fixing flanges, which rotate in the same direction as the rotating direction of the excavating stirring rod, is guided by the engaging action of the rotary interference by the engagement stopper in the forward and reverse rotations of the excavating stirring rod by the upper auger And the slurry discharge ports respectively formed on the circumferential surface and the lower end of the excavating stirring rod are matched with each other so that the slurry is sprayed from the upper side slurry discharge port which mutually coincides with each other before the slurry is excavated in the paperboard, The slurry is injected from the mutually aligned lower side slurry ejection openings in accordance with the reverse rotation so that the stirring efficiency between the soil particles and the slurry through the slurry is maximized to provide a high quality reinforcement having less unbalance in strength, And a conventional excavation stirring rod having a discharge port formed at both ends thereof The problem is that when the ground excavating blade is rotated, the crushed ground particles directly flow into the discharge port to block the discharge port by the ground particles, and the discharge pressure of the slurry due to clogging of the discharge port by the ground particles also increases There is also another purpose in order to be able to eliminate and prevent.

According to an aspect of the present invention, there is provided an excavating agitation rod for normal and reverse discharge, comprising a sludge injection path and a slurry discharge port at upper and lower ends of an outer circumferential surface to communicate with the sludge injection path, And a flange coupling portion for rotatably flange-joining a circumferential excavating blade at a lower end thereof, and a locking stopper is respectively fixed to the upper and lower sides of the flange coupling portions, A circumferential drilling vane is bolted to the outer circumferential surface of each flange coupling portion so that the circumferential drilling vane rotates in the same direction as the rotating direction of the excavating stirring rod, and upper and lower fixing flanges provided with a flange slurry discharge port corresponding to the slurry discharge port, And are formed by joining together.

According to the present invention, the structure itself is simpler than the conventional excavating and stirring rod, and at the same time, there is an excellent effect of reducing the work process and manufacturing time for manufacturing the same, reducing the unit cost of the work, and improving the overall productivity .

In addition, a flange formed at the center of the upper and lower fixing flanges, which rotate in the same direction as the rotating direction of the excavating stirring rod, through the engagement action of rotation interference by the engagement stopper in forward and reverse rotation of the excavating stirring rod by the upper auger The slurry ejection orifices formed on the circumferential surface and the lower surface of the excavation stirring rod respectively coincide with each other so that slurry is ejected from the upper side slurry ejection openings which are mutually aligned with each other at the time of excavation in the paperboard, The slurry is injected from the lower side slurry ejection orifices which are mutually aligned to increase the stirring efficiency between the soil particles and the slurry through the slurry to maximize the mixing efficiency and to provide a high quality reinforcement having less unbalance in strength, A problem that arises from the conventional ground excavation stirring rod formed with When the ground excavating blade is rotated, the crushed ground particles directly flow into the discharge port to block the discharge port by the ground particles, and the discharge pressure of the slurry due to clogging of the discharge port by the ground particles also rises There is also the effect of being able to.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a ground excavating apparatus to which a excavating stirring rod of the present invention is applied. FIG.
2 is a perspective view of the excavating stirring rod of the present invention.
3 is an exploded perspective view of a digging agitation rod according to the present invention.
4 is an assembled cross-sectional view of a excavating stirring rod according to the present invention.
5A to 5D are operational states of excavation stirring rods according to the present invention.

(Hereinafter referred to as excavation stirring) will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view of the excavating stirring rod of the present invention, and FIG. 3 is a sectional view of the digging agitating rod according to the present invention. FIG. And FIG. 4 shows an engagement sectional view of the excavating stirring rod according to the present invention.

First, before explaining the excavating stirring rod 50 of the present invention in detail, the ground excavator 1 to which the excavating stirring rod 50 is applied will be briefly described as follows.

As shown in Fig. 1, the ground excavation apparatus 1 is provided with a post frame 10 provided at the tip of a crawler crane having a largely maneuvering force; A top auger 20 suspended above the guide 11 of the post frame 10 as a wire and a pulley; A screw rod 25 connected to the output shaft 21 of the upper auger 20; A drilling stirring rod 50 connected to the lower end of the screw rod 25 and composed of an excavating blade 63, a stirring blade 64 and a drilling bit 65; Is placed below the upper auger 20 in a state of being connected to the guide 11 of the post frame 10 and suspended on both sides of the body 31 as a wire and a pulley and at the same time auger casing 40 A lower auger (30) having a casing clamp (35) coupled therewith; An auger casing (not shown) which is engaged with the casing clamp at the lower end of the lower auger 30 and is caught in the excavation hole of the ground drilled by the excavating stirring rod 50 rotating together with the screw rod 25 in accordance with the operation of the upper auger 20 40).

In the case of the post frame 10, the upper and lower augers 20 and 30, the screw rod 25 and the auger casing 40 of the ground excavation apparatus 1 constructed as described above, The auger casing, the post frame, the upper, the lower auger, the screw rod, and the auger casing, which are components of the ground excavation apparatus, and at the same time, the detailed structure will be omitted. Only the excavation stirring rod 50 according to the present invention will be described in detail.

In order to improve the soft ground, the excavating stirring rod 50 of the present invention is constructed by crushing the texture of the ground and mixing the soil particles and the cement-based fire-fighting slurry mixed and agitated to construct a reinforcing body such as a pile or a water wall in the perforated ground As shown in FIGS. 2 to 4, there are provided an apparatus for use in connection with a lower end of a screw rod 25 of a ground excavating apparatus 1, which includes a sludge injection path 51 and a sludge injection path 51, Slurry discharge openings 52a and 52b are provided at the upper and lower ends of the circumferential surface and a flange for rotatably flanging the circumferential excavating vanes 60a and 60b at the upper and lower ends of the slurry discharge openings 52a and 52b, The engagement portions 53a and 53b are formed and the engagement stoppers 61a, 61b, 62a and 62b are respectively fixed on the upper and lower sides of the flange engagement portions 53a and 53b, , 62a and 62b The circumferential excavating blades 60a and 60b are screwed to the outer circumferential surfaces of the flange engaging portions 53a and 53b so as to rotate the circumferential excavating blades 60a and 60b in the same direction as the rotating direction of the excavating stirring rod 50, And fixing upper and lower fixing flanges 55a and 55b having flange slurry discharging ports 57a and 57b so as to correspond to the slurry discharging ports 52a and 52b.

That is, the upper and lower flange engaging portions 50a, 50b and 50c of the excavating stirring rod 50 are engaged with each other through engagement of rotation interference by the engagement stoppers 61a, 61b, 62a and 62b during forward and reverse rotation of the excavating stirring rod 50 The upper and lower fixing flanges 55a and 55b, which are flange-engaged with the circumferential excavating vanes 60a and 60b in a state where the circumferential excavating vanes 60a and 60b are fixed to the upper and lower fixing flanges 55a and 55b in the same direction as the rotating direction of the excavating stirring rod 50, The flange slurry discharge ports 57a and 57b formed on the circumferential surface and the slurry discharge ports 52a and 52b formed respectively on the circumferential surface and the lower surface of the excavation stirring rod 50 are configured to coincide with each other in the respective rotational directions .

In the excavation stirring rod 50 of the present invention constructed as described above, the entire shape of the excavating stirring rod 50 is formed as a hollow cylindrical tube body having a sludge spraying passage 51 penetrating therethrough in its longitudinal direction, and slurry discharge ports 52a, Side slurry discharge port 52b is formed on the center line at an angle difference of 40 degrees with respect to the upper slurry discharge port 52b and on the position where the center is eccentrically rotated by an angle of 40 degrees from the lower slurry discharge port 52b, And a discharge port 52a is formed to pass through.

The upper and lower slurry discharging ports 52a and 52b formed on the circumferential surface of the excavating stirring rod 50 are provided with circumferential excavating vanes 60a and 60b at both ends thereof, Flange engaging portions 53a and 53b are formed on both sides of the upper and lower sides in such a manner that two locking projections 54a and 54b are spaced apart from each other in order to support and fix the fixing flanges 55a and 55b And the lower end of the screw rod 25 of the ground excavation apparatus 1 and the excavation bit 65 are connected to the upper and lower ends of the excavation stirring rod 50, respectively.

In addition, an excavation blade 63 having an excavation tip 63a at the lower end thereof and an excavating blade 63 having a predetermined size are provided at the lower side and the center of the circumferential surface of the excavation stirring rod 50, And a stirring vane 64 for uniformly stirring the ground grains in the ground excavation hole drilled to a predetermined size are welded and fixed, respectively.

In the case of the upper and lower fixing flanges 55a and 55b of the excavating stirring rod 50 of the present invention, upper and lower ends of the excavating stirring rod 50, that is, upper and lower ends of the slurry discharging ports 52a and 52b Shaped flanges 56a and 56b having horizontal excavating vane fixing portions 59a and 59b at both ends so as to be mutually bolted while surrounding the circumferential surfaces of the flange coupling portions 53a and 53b formed in the flange coupling portions 53a and 53b The flange portion 56a and the flange portion 56b opposed to each other are formed in a divided structure so as to be mutually rotatably engaged with the flange engagement portions 53a and 53b as a bolt fastening with one flange portion 60a and 60b for rotating the inner circumferential surface of the ground excavation hole are provided between the excavating vane fixing portions 59a and 59b integrally formed at both ends of the two connecting flanges 56a and 56b, And is fixed by a bolt for fastening.

In addition, at the center of each of the circumferential surfaces of the upper and lower fixing flanges 55a and 55b, that is, the upper flange portion 56a and the lower flange portion 56b of the circular arc shape, An upper side slurry discharge port 52a and a lower side slurry discharge port 52b which correspond to the upper and lower slurry discharge ports 52a and 52b respectively formed at the lower end and are rotated together with the forward and reverse rotation of the excavation stirring rod 50, And the slurry discharged from the upper side slurry discharge port 52a and the lower side slurry discharge port 52b in accordance with the forward and reverse rotation of the excavation stirring rod 50 are injected and discharged into the ground excavation hole An upper side flange slurry discharge port 57a and a lower side flange slurry discharge port 57b are formed so as to be able to be agitated with excavated soil particles and are formed on the same center line, 58a and 58b for adjusting the injection amount of the cement-based high-fire slurry supplied from the upper and lower slurry discharge ports 52a and 52b of the excavating stirring rod 50 are installed and fixed The spray adjusting lids 58a and 58b may be installed in the respective flange slurry discharging ports 57a and 57b in accordance with the working conditions of the construction site or may be used separately from the flange slurry discharging ports 57a and 57b, It is noted that the covers 58a and 58b may be separated.

In the case of the engaging stoppers 61a, 61b, 62a and 62b of the excavating stirring rod 50 of the present invention, the upper and lower slurry discharging ports 52a and 52b of the excavating stirring rod 50 Of the upper and lower engaging projections 54a and 54b spaced upward and downward from the flange engaging portions 53a and 53b, that is, two upper and lower flange engaging portions 53a and 53b, And is fixed to the flange engaging portions 53a and 53b while being rotated in the same direction when the excavating stirring rod 50 is rotated in the forward and reverse directions of the excavating stirring rod 50 The upper and lower fixing flanges 55a and 55b having the circumferential excavating blades 60a and 60b fixed in the same direction as the rotating direction of the excavating stirring rod 50 through the engagement action due to the rotation interference with the upper and lower fixing flanges 55a and 55b, (55a, 55b) to rotate the flange slurry discharge ports (57a, 5b) formed on the circumferential surfaces of the upper and lower fixing flanges (55a, 55b) And the slurry discharge ports 52a and 52b respectively formed on the circumferential surface and the lower surface of the excavation stirring rod 50 are aligned in the respective rotational directions, The upper and lower fixing flanges 55a and 55b located on the front side of the upper and lower fixing flanges 55a and 55b which are formed in the shape of a sieve and are fastened to the flange engagement portions 53a and 53b of the excavation stirring rod 50 61b, 62a, and 62b are installed and fixed on both right and left sides of the respective flange slurry discharge ports 57a and 57b. At this time, the engagement stoppers 61a, 61b, 62a, 62a and the other side by an angle difference of 40 degrees formed between the upper side slurry discharge port 52a and the lower side slurry discharge port 52b penetrating the lower surface of the circumferential surface of the excavation stirring rod 50 and the lower side slurry discharge port 52b, The engagement stoppers 61b and 62b are also spaced apart and fixed by welding.

Hereinafter, the operation of the excavation stirring rod 50 according to the present invention will be described with reference to the accompanying drawings.

Figs. 5A to 5D show operation states of excavation stirring rods according to the present invention. Fig.

The excavation stirring rod 50 of the present invention is attached to the lower end of the screw rod 25 of the ground excavator 1 in order to improve the soft ground by constructing a reinforcing member such as a pile or a water wall in the ground plate, The excavation stirring rod 50 of the present invention rotates in the forward direction through the rotation force of the excavation apparatus 1 and the flange engagement portion 53a which rotates together with the excavation stirring rod 50 in the same direction The upper and lower fixing flanges 55a and 55b having bolts 60a and 60b are provided at both ends so as to be rotatably engaged with the upper and lower fixing flanges 55a and 55b, Upper engagement stoppers 61a and 61b welded and fixed to the engagement projections 54a and 54b of the flange engagement portions 53a and 53b formed on the upper and lower slurry discharge ports 52a and 52b and the lower end of the upper and lower slurry discharge ports 52a and 52b, Side hooking stoppers 62a and 62b, The upper fixing flange 55a and the lower fixing flange 55b which are respectively engaged with the upper side flange engagement portion 53a and the lower side flange engagement portion 53b while rotating in the forward direction and the upper side engagement stoppers 62a, The upper and lower fixing flanges 55a and 55b are rotated in the same direction as the rotating direction of the excavating stirring rod 50 due to rotational interference with the lower fixing flange 55b.

At this time, when the upper and lower fixing flanges 55a and 55b, which are engaged with the upper and lower one-side engagement stoppers 61a and 62a, and the respective upper and lower fixing flanges 55a and 55b are rotated clockwise in the same direction as the excavation stirring rod 50, An upper side flange slurry discharge port 57a formed at the center of the circumferential surface of the upper fixing flange 55a of the upper and lower fixing flanges 55a and 55b and a lower flange slurry discharge port 57b formed on the circumferential surface of the above- The upper side slurry ejection openings 52a of the slurry ejection openings 52a and 52b formed at the lower end are mutually coincident and communicated with each other so that the circumferential surface of the lower fixing flange 55b of the upper and lower fixing flanges 55a and 55b The lower side flange slurry discharge port 57b formed at the center and the lower side slurry discharge ports 52b of the slurry discharge ports 52a and 52b formed respectively on the circumferential surface and the lower end of the excavation stirring rod 50 do not coincide with each other, Clogging and so on. The upper side flange slurry discharge port 57a formed at the center of the circumferential surface of the upper fixing flange 55a and the upper side slurry discharge port 52a formed at the upper end of the circumferential surface of the excavation stirring rod 50, 50 as shown in FIG. 5B is discharged into the drilled ground excavation hole to be mixed with the ground grains, and the agitating vane 64 welded to the center of the circumferential surface of the excavation stirring rod 50 As a result of mixing and stirring by the rotation action, excavation perforation and the first supply of the slurry are performed as the desired depth from the ground surface of the paper sheet through the above process.

Conversely, when the excavating stirring rod 50 of the present invention is reversely rotated in the counterclockwise direction by the operation of the ground excavator 1, as shown in FIG. 5C, the upper and lower other engagement stoppers 61b and 62b, And the upper and lower fixing flanges 55a and 55b of the upper and lower fixing flanges 55a and 55b of the upper and lower fixing flanges 55a and 55b of the upper and lower fixing flanges 55a, The upper slurry discharge ports 52a of the slurry discharge ports 52a and 52b formed on the circumferential surface and the lower end of the excavating stirring rod 50 do not coincide with each other and clogging occurs between the upper and lower slurry discharge ports 52a and 52b, A lower flange slurry discharge port 57b formed at the center of the circumferential surface of the lower fixing flange 55b of the lower fixing flanges 55a and 55b and a slurry discharge port 52a formed at the lower surface of the circumferential surface of the excavation stirring rod 50, , And 52b are mutually coincident with each other A lower side flange slurry discharge port 57b formed at the center of the circumferential surface of the lower fixing flange 55b which communicates with each other as described above such as to communicate with each other and the lower side flange slurry discharge port 57b formed at the upper end of the circumferential surface of the excavation stirring rod 50 The cement-based high-fire slurry supplied from the excavating stirring rod 50 through the slurry discharge port 52b is discharged into the perforated ground excavation hole and mixed with the ground particles to form a circle of the excavation stirring rod 50 The mixing and stirring is performed by the rotation action of the stirring vane 64 welded and fixed to the center of the main surface. Through this process, the excavation stirring rod 50 is lifted up to the ground and, together with the secondary supply of the slurry, The construction work of the reinforcement body is completed.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. .

1. Ground excavator 10. Post frame
11. Guide 20. Upper auger
21. Output shaft 25. Screw rod
30. Lower auger 31. Body
35. Casing Clamps 40. Auger Casing
50. Excavation stirring rod 51. Sludge injection flow path
52a, 52b. Slurry discharge ports 53a, 53b. The flange-
54a, 54b. The locking protrusions 55a, 55b. Upper and lower fixing flanges
56a, 56b. Flange portions 57a, 57b. Flange slurry outlet port
58a, 58b. A dispense control lid 59a, 59b. The excavating-
60a, 60b. Circumferential excavating wings 61a, 61b, 62a, 62b. Latch stopper
63. Excavation wing 64. Stirring wing
65. Excavation bit

Claims (5)

In order to improve the soft ground, the soil excavator is designed to be used to construct a pile body or a water wall in the perforated ground by mixing and mixing the soil particles formed by crushing the ground structure and the cement fire resisting slurry mixed with cement and water , The excavation stirring rod (50) for normal and constant discharge is connected to the lower end of the screw rod (25)
The above-described normal and reverse excavation stirring rod 50 is provided with slurry discharge openings 52a and 52b at the upper and lower ends of the outer circumferential surface so as to communicate the sludge spray passage 51 and the sludge spray passage 51 therein Flange engaging portions 53a and 53b for rotatably flanging the circumferential excavating vanes 60a and 60b are formed on the upper and lower ends of the slurry discharging ports 52a and 52b,
Engagement stoppers 61a, 61b, 62a and 62b are fixed to the upper and lower sides of the respective flange engagement portions 53a and 53b, respectively,
60b are rotated in the same direction as the rotating direction of the excavating stirring rod 50 by the engagement action of the rotation interference by the engagement stoppers 61a, 61b, 62a, 62b, The annular excavating blades 60a and 60b are bolted to the outer circumferential surfaces of the upper and lower fixing flanges 53a and 53b and the flange slurry discharging ports 57a and 57b are formed so as to correspond to the slurry discharging ports 52a and 52b 55a, 55b) are connected to each other. The slurry discharge apparatus according to claim 1, wherein the slurry discharge ports (52a, 52b) formed on the circumferential surface and the lower end of the forward and reverse excavation stirring rod (50) An upper side slurry discharge port 52a is formed in a position where the center is eccentrically rotated on one side,
Wherein the flange slurry discharge ports (57a, 57b) are formed at the centers of the circumferential surfaces of the upper and lower fixing flanges (55a, 55b), respectively, and are formed on the same center line. The apparatus according to claim 1, wherein the flange coupling portions (53a, 53b) are provided at both ends with circumferential excavating blades (60a, 60b) to support upper and lower fixing flanges (55a, 55b) Wherein two engaging projections (54a, 54b) are formed on both upper and lower sides of the upper and lower slurry discharge ports (52a, 52b) so as to be flange-engaged as possible. The apparatus as claimed in claim 1, wherein the upper and lower fixing flanges (55a, 55b) have circular-arc planes (59a, 59b) having horizontal excavating vane fixing portions (59a, 59b) The flange portions 56a and 56b are formed as a pair of flanges 56a and 56b and are connected to the flange engaging portions 53a and 53b by bolts to be rotatable relative to each other. And the excavated stirring rod for normal and reverse discharge. The excavation apparatus according to claim 2, wherein the engagement stoppers (61a, 61b, 62a, 62b) are formed in a rectangular block having an overall shape of "L" shape, and flange engagement portions (53a, 53b) Two flange slurry discharge ports 57a and 57b of the upper and lower fixing flanges 55a and 55b positioned on the front side of the upper and lower fixing flanges 55a and 55b which are engaged with the flange slurry discharge ports 57a and 57b, And is spaced apart and spaced apart at an interval of 40 degrees in the same manner as the forming angles of the upper side slurry discharge port 52a and the lower side slurry discharge port 52b passing through the circumferential surface and the lower end of the excavation stirring rod 50 The excavation stirring rod for normal and reverse discharge.

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