KR101021300B1 - Concrete structure expansion bit - Google Patents

Abstract

PURPOSE: A grooving machine for a concrete structure is provided to prevent the separation of a filler from a concrete structure by forming grooves in holes of the concrete structure in which the filler is filled and cured. CONSTITUTION: A grooving machine for a concrete structure comprises a connecting member(10), a cylinder part, a body part, a guide, and grooving drills(50). The connecting member is coupled to a rotating unit. The cylinder part is fixed to the connecting member. The body part is connected to the cylinder part and has a plurality of drill grooves(33). The guide is located to move within the body part and connected to the cylinder part. The grooving drills are hinged in the drill grooves of the body part so that one end contacts the interior surface of a hole while the other contacts the guide.

Description

Concrete structure uneven groove processing equipment {Concrete structure expansion bit}

The present invention relates to a concave-convex groove processing apparatus for a concrete structure, and relates to a concave-convex groove processing apparatus for forming a concave-convex groove on an inner surface of a groove by a rotary protrusion concave-convex drill inserted into a perforated groove of a concrete structure.

In general, foundation piles for civil engineering and construction, foundation piles for repair and reinforcement of concrete structures, foundation piles for installation of fixed structures such as streetlights, traffic lights, etc. Foundation pile installation of soft ground based on concrete foundation block should be installed while being firmly fixed with the installed concrete structure.

As a means for firmly fixing the fixed structure as described above, a hole is formed in the concrete structure by a punching device, and the foundation pile is fixed to the ground through the formed hole, and then the foundation pile is mortar into the hole where the upper side is located. The grout is injected / cured to firmly support the foundation pile to the concrete structure, and then connect the foundation pile to install a fixed structure.

Conventionally, in order to firmly fix the foundation pile and the concrete structure, the non-shrink mortar grout is filled and cured into a perforated hole, but the concrete structure and the non-shrink mortar grout are formed by shaking the fixed structure installed in the foundation pile for a long time. There is a phenomenon that a gap is generated to reduce the bearing capacity of the foundation pile.

In particular, the milling mill used in the prior art is that the perforated blade formed at the tip cuts the concrete structure to form a cylindrical hole in the concrete structure, so that the non-contraction mortar grout is injected into the cylindrical hole, so that there is a slight shrinkage. The phenomenon also caused various problems such as a gap between the mortar grout and the concrete structure, resulting in a decrease in bearing capacity.

The present invention is to solve the above object, the object is to form a concave-convex groove in the hole of the concrete structure to prevent the separation phenomenon of the filler and the concrete structure by injecting and curing the filler into the hole with the concave-convex groove It is to provide a concave-convex groove processing apparatus for concrete structures.

Still another object of the present invention is to provide a concrete structure recessed groove processing apparatus capable of firmly coupling the foundation pile and the concrete structure.

Still another object of the present invention is to provide a concave-convex groove processing apparatus for forming a concave-convex groove of the same depth by simultaneously projecting a plurality of concave-convex drills by operating pressure.

Still another object of the present invention is to provide a concave-convex groove processing apparatus for a concrete structure in which the concave-convex drill is automatically received into the drill groove by the contact of the hole inner surface and the concave-convex drill.

Still another object of the present invention is to provide a concrete structure uneven groove processing apparatus that can simplify the structure, improve assembly, facilitate maintenance, and reduce cost.

The present invention is coupled to the rotating means, the cylinder portion is fixed to the assembly, the body portion is connected to the cylinder portion and installed with a plurality of drill grooves, and installed to be located in the body portion and connected to the cylinder portion And a guide which is moved in the body by the cylinder part, and a concave-convex drill rotatably hinged to the drill groove of the body and the end of which is in contact with the guide.

In addition, the body portion further includes a reaction force for cushioning and moving the guide by the spring elasticity.

In addition, the body portion further includes a ball stopper for fixing the position of the guide.

As described above, the present invention allows the plurality of uneven drills to protrude simultaneously due to the operating pressure, thereby forming a plurality of uneven grooves having a strip shape into the concrete structure, through which the mortar grout and the existing concrete structure are filled into the holes. Enables a solid combination of

In addition, the present invention is a guide rod formed at the end of the uneven drill is to be inserted into the guide groove formed in the guide, during the movement of the guide according to the cylinder, the uneven drill is accurately rotated and projected around the hinge, uneven groove processing Shaking is prevented when

In addition, the present invention is to be automatically received into the drill groove while moving the guide by the concave-convex drill by the contact of the hole inner surface and the concave-convex drill, the overall structure is simple and can thereby facilitate maintenance.

In addition, the present invention is such that the uneven drill is accommodated in the drill groove using the center of gravity of the uneven drill, so that the uneven drill is not exposed to the outside of the body even when exposed to the outside of the hole.

In addition, the present invention is further provided with a reaction force in the body portion, when the movement of the guide by the operating pressure, has a cushioning function for the guide to be moved, the movement of the guide by the spring elasticity during the movement of the guide by removing the operating pressure It can be assisted to facilitate damage prevention and movement of the guide.

In addition, the present invention is further provided with a ball stopper in the body portion, to firmly fix the position of the guide according to the removal of the operating pressure, thereby eliminating the interference with the uneven drill, to improve the storage storage of the uneven drill It is.

1 is an exemplary view showing a configuration according to the present invention, Figure 2 is an exemplary view showing an internal configuration according to the invention, Figure 3 is an exemplary view showing a stored state of the uneven drill according to the present invention, Figure 4 Is an exemplary view showing the internal configuration of the recessed state of the uneven drill according to the present invention, Figure 5 is an illustration showing a state in which the uneven drill according to the present invention, Figure 6 is an uneven drill in accordance with the present invention Exemplary diagram showing the internal configuration of the state shown in the present invention, the present invention is coupled to the rotating means 10, the cylinder portion 20 is fixed to the combination and the cylinder portion is connected to a plurality of installed Body portion 30 having a drill groove 33, the guide 40 is installed to be located in the body portion 30 and connected to the cylinder portion 20 and moved in the body portion, and the body portion 30 Rotatably hinged to the drill groove 31 of the one end and the inner side of the hole ( 111 to form an uneven groove 120 and the other end is to include a concave-convex drill 50 is in contact with the guide 40.

The assembly 10 is coupled to the rotating means 200, and has an operating pressure supply port 11 for supplying an operating pressure such as pneumatic, hydraulic pressure, and hydraulic pressure into the cylinder portion 20 therein. The rotating means 200 means a known rotating means used to drill the hole 110 in the concrete structure 100.

The cylinder part 20 includes a cylinder 21 coupled to maintain the airtightness in the assembly 10, a piston 22 installed in the cylinder 21 and connected to the guide 40, and the piston ( It is hermetically treated by the O-ring 23 or the like so as to maintain hermeticity between the 22 and the inner surface of the cylinder 21.

The body portion 30 is configured to include a body 31 coupled to maintain the cylinder 31 and the airtight of the cylinder portion, and a lower plate 32 is fastened to the other side of the body 31.

The body 31 has a central hole 34 in which the guide 40 is located therein, a plurality of drill holes 33 are formed to communicate with the central hole 34, the drill hole 33 ) Is formed with a hinge groove 35 for connection with the uneven drill 50.

In addition, the body 31 is formed so that a plurality of stopper holes 36 are located above the drill hole 33 so as to communicate perpendicularly with the central hole 34.

That is, the central hole 34 communicates with the stopper hole 36 on the upper side, the drill hole 33 communicates with the lower side, and the stopper hole 36 and the drill hole 33 are external to the body 31. It is formed orthogonal to the central hole 34 so as to communicate with.

The lower plate 32 is integrally coupled to the body 31, the truncated conical support 37 is formed on the upper side of the center, the lower hole 38 in the vertical direction in the center of the support 37 It is formed more.

The support 37 has a function of limiting the moving range of the guide 40 is supported by the lower end of the guide 40 in accordance with the supply of the operating pressure.

In addition, the lower hole 38 of the lower plate 32 is further provided with a reaction force 60 for buffering and moving the guide by the spring elasticity.

The reaction force part 60 is installed to be positioned below the center of the central hole of the body part, and a fixing bracket 61 inserted into the lower hole of the lower plate and a prevention nut which is fastened to the lower hole to prevent the fixing bracket from being separated. (62), a buffer (63) installed through the prevention nut (62) and the fixing bracket (61), and a spring (64) installed to be located between the buffer (63) and the fixing bracket (61). And an adjustment nut 65 which is fastened to the end of the shock absorber 63 penetrating the fixing bracket 61 to adjust the protruding length of the shock absorber 63.

In addition, the body 31 is further provided with a ball stopper 70 coupled to the stopper hole 36 to fix the position of the guide.

The ball stopper 70 is a ball is moved by the elasticity of the spring is to be inserted into the stopper hole. That is, the ball stopper 70 is a ball 71 in contact with the outer surface of the guide 40, a spring 72 for moving the ball 71 in the guide direction, and the outer separation of the spring 72 Fastening nut 73 is coupled to the stopper hole 36 of the body to prevent the.

The ball stopper 70 made as described above pushes the ball 71 toward the guide 40 by the elasticity of the spring 72 in the stopper hole 36 to contact the ball 71 with the guide outer surface, When the stopper hole 36 reaches the position of the ball stopper 70 as the guide 40 rises, the ball 71 of the ball stopper is inserted into the stopper hole 36 to fix the position of the guide 40. As a result, the lowering of the guide 40 is prevented.

At this time, the inner diameter of one end of the stopper hole 36 connected to the central hole 34 of the body portion is formed to be smaller than the outer diameter of the ball 71 so as to prevent the ball 71 from falling into the central hole. Since this principle is a general principle of the ball stopper, a detailed description thereof will be omitted.

The guide 40 is connected to the piston 22 is moved up and down in the central hole 34, and in contact with one side of the concave and convex drill 50 to push the concave and convex drill in the outer direction of the body portion, the outer surface A plurality of guide grooves 41 are formed vertically and have a tapered inclined surface 42 at the bottom thereof. That is, the guide 40 is formed such that the upper portion connected to the piston 22 has a cylindrical shape, and the lower portion contacting the uneven drill 50 has a truncated conical shape. Is formed to extend from the upper portion of the guide to the lower portion.

In addition, the guide 40 is coupled to each other by a piston 22 and the connecting rod 80, the connecting rod 80 is a piston coupling hole 81 formed in the center to be coupled to the piston 22, and It is provided with a plurality of guide coupling holes 82 are fastened to the guide 40, the guide coupling holes 82 are formed to be located around the piston coupling hole 81 formed in the center.

In addition, the guide 40 is formed with a plurality of fixing grooves 43 are coupled to the ball stopper 70, the fixing groove 43 is located between the guide groove and another guide groove adjacent thereto. Is formed.

The uneven drill 50 is in contact with the concrete structure 100 to form the uneven groove 120, and integrally formed in the drill 51 and inserted into the hinge groove 35 in the drill groove Hinge 52 to be coupled, and guide rods 53 are formed integrally with the rear end of the drill (51).

According to the present invention configured as described above, when the operating pressure is supplied into the cylinder portion 20 through the operating pressure supply port 11 in a state of being fastened to the rotating means 200, the piston 22 is lowered by the supplied operating pressure. Direction, the guide 40 is moved downward along the central hole 34 by the movement of the piston 22, wherein the inclined surface 42 of the guide pushes the guide rod 53 of the uneven drill The uneven drill 50 is rotated about the hinge 52. As a result of the movement of the guide 40, the uneven drill 50 is rotated about the hinge 52 so that the uneven drill 50 protrudes out of the drill groove 33, and the uneven drill 50 protrudes. The uneven groove 120 is formed on the inner surface 111 of the perforated hole of the concrete structure by the rotation of the rotation means 200.

In addition, the guide 40, which is lowered by the operating pressure, is contacted and supported by the support 37 of the lower plate after the lower end is contacted with the reaction force 60 and the lowering speed is alleviated. That is, the reaction force 60 is a buffer 63 which is in contact with the guide 40 is compressed to the spring 64 and moved downward to mitigate the impact of the guide 40 and the support 37, the support The guide 40 in contact with 37 stops the lowering operation.

In addition, according to the present invention, after the uneven groove 120 is formed, when the operating pressure in the cylinder 20 is removed, the guide 40 springs up to a predetermined height by the spring resilience of the reaction force 60, and is perforated. By the contact of the hole inner surface 111 and the uneven drill (contact with the uneven drill generated by withdrawing the present invention from the drilled hole) the uneven drill 50 in the drill hole in the center of the hinge 52 (center Hole direction). At this time, the guide 40 is bounced up to a predetermined height by the reaction force 60, the contact area between the guide rod 53 and the guide inclined surface 42 of the concave-convex drill rotated about the hinge 52 is increased. The guide 40 is quickly raised by the force of the uneven drill 60 is rotated.

As such, the guide 40 rising by the rotational force of the uneven drill is fixed to the position by the ball stopper 70 is fixed into the fixing groove 43, the uneven drill 50 is in contact with the guide 40 In the released state does not protrude to the outside of the body portion 30 is located in the drill groove (33). At this time, the uneven drill 50 is located in the drill groove when the uneven drill does not receive external interference in the state that the center of gravity is located in the vertical lower portion of the hinge.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is an exemplary view showing a configuration according to the present invention

2 is an exemplary view showing an internal configuration according to the present invention

Figure 3 is an exemplary view showing a housed state of the uneven drill according to the present invention

Figure 4 is an exemplary view showing the internal configuration of the received state of the uneven drill in accordance with the present invention

5 is an exemplary view showing a protruding uneven drill in accordance with the present invention

Figure 6 is an exemplary view showing the internal configuration of the uneven drill projecting state according to the present invention

DESCRIPTION OF THE REFERENCE NUMERALS

(10): assembly (11): working pressure supply port

20: cylinder portion 21: piston

(23): O-ring 30: Body

(31): body 32: lower plate

(33): Drill groove (34): Central hole

(35): hinge groove (36): stopper hole

(37): support (38): lower hole

40: Guide 41: Guide groove

(42): inclined surface (43): fixing groove

50: uneven drill 51: drill

(52): hinge 53: guide rod

60: reaction force portion 61: fixed bracket

(62): Preventive Nut (63): Shock Absorber

(64): Spring (65): Adjusting Nut

70: ball stopper 71: ball

(72): Spring (73): Tightening Nut

(80): connecting rod 81: piston coupling hole

(82): guide coupling hole 100: concrete structure

110: hall 111: inside the hall

120: uneven groove

Claims (10)

A combination coupled to the rotating means, A cylinder part fixed to the assembly, A body part connected to the cylinder part and having a plurality of drill grooves; A guide installed to be located in the body part and connected to the cylinder part and moving in the body part; The concave-convex groove processing apparatus of claim 1, wherein the concave-convex groove is rotatably hinged to the drill groove of the body and one end thereof contacts the inner surface of the hole to form an uneven groove, and the other end is supported by the guide. The method according to claim 1; The body portion is a concave-convex groove processing apparatus for a concrete structure, characterized in that it comprises a body coupled to maintain the cylinder and the airtight of the cylinder portion, and a lower plate fastened to the other side of the body. The method according to claim 2; The body is formed with a central hole in which the guide is located therein, a plurality of drill holes are formed so as to communicate with the central hole, the drill hole is characterized in that the hinge groove for the connection with the uneven drill is formed Structure uneven groove processing equipment. The method according to claim 3; The body of the concave-convex groove processing apparatus, characterized in that the plurality of stopper holes are formed to be located on the upper side of the drill hole so as to communicate perpendicular to the central hole. The method according to claim 2; The lower plate is a concave-convex groove processing apparatus, characterized in that the support of the truncated conical shape protrudes in the upper center, the lower hole is formed in the vertical direction in the center of the support. The method according to claim 2 or 5; The reaction plate is further installed on the lower plate, The reaction force unit is installed to be positioned below the center of the central hole of the body portion, the fixing bracket is inserted into the lower hole of the lower plate, the prevention nut is fastened to the lower hole to prevent the separation of the fixing bracket, the prevention nut and A buffer installed through the fixing bracket, a spring installed between the buffer and the fixing bracket, and an adjusting nut fastened to the end of the buffer passing through the fixing bracket to adjust the protruding length of the buffer. Concrete structure uneven groove processing apparatus, characterized in that. The method according to any one of claims 2 to 4; The body is further provided with a ball stopper, The ball stopper includes a ball contacting the outer surface of the guide, a spring for moving the ball in the direction of the guide, and a fastening nut coupled to the stopper hole of the body to prevent the outer departure of the spring Structure uneven groove processing equipment. The method according to claim 1; The guide is a concrete structure uneven groove processing apparatus, characterized in that the plurality of guide grooves are formed vertically on the outer surface, the tapered inclined surface at the bottom. The method according to claim 1; The guide is coupled to each other by a piston and a connecting rod, the connecting rod is a concrete structure recessed groove having a piston coupling hole formed in the center to be coupled to the piston, and a plurality of guide coupling holes fastened to the guide Processing equipment. The method according to claim 1; The uneven drill includes a drill contacting the concrete structure to form the uneven groove, a hinge integrally formed in the drill and inserted into the hinge groove of the drill groove, and a guide rod integrally formed at the rear end of the drill. Concrete structure uneven groove processing apparatus, characterized in that.

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