KR101280494B1 - Remove the nail - Google Patents

Abstract

PURPOSE: A structure of a removable nail is provided to facilitate to remove a nail by rotating the nail, disassembling a front end assembly, and striking the nail to disassemble a middle assembly. CONSTITUTION: A structure of a removable nail comprises a separation tube (10), a nail (20), a front end assembly (30), and a middle assembly (40). The nail is formed with a male spiral end and a spiral joint (21). The front end of the nail is assembled with the front end assembly. The inner surface of the front end assembly is latched to the joint or male spiral end. One point in the nail separated from the front end assembly is assembled with the middle assembly of which the inner surface is latched to the joint or the male spiral end in the longitudinal direction. The middle assembly is disassembled by rotating the nail, disassembling the nail from the front end assembly, and striking the nail.

Description

Structure of the removable nail {Remove The Nail}

The present invention relates to a removable nail, and in particular, by first rotating the nail to dismantle the tip portion and then secondly dismantle the middle part of the nail by blow or pull, it is possible to simply remove the nail, two The present invention relates to a structure of a supportable removable nail that is stabilized against ground flow, cracking, and the like by expanding the support area using the assembly.

In general, the excavation support system required for the construction of civil engineering-related structures such as reinforcement of natural and artificial slopes, construction of underground structures and tunnels adjacent to trenches, masonry, railways and roads, repair of existing retaining walls, and installation of retaining walls The reinforcement method is applied to prevent the surface from collapsing. Three methods are mainly used, namely, earthen construction, earth anchor, and soy nail.

The above-mentioned construction of the earthen block is a support method using a thumb pile, a cross pile, a sheet pile, etc., but since such a method uses a large drilling equipment, noise and vibrations associated with installing a pile are problematic. There is a problem that the brace narrows the construction space so that it is not easy to carry the gulto earth yarn, and the Earth Anchor method is easy for the gul earth work itself, but the construction time is long and the length of the anchor is very long. There is a problem that the temporary structure is sometimes formed outside the target site, so there is always a possibility of dispute.

Therefore, in recent years, the Soil-Nailing method is widely used, and this Soil-Nailing method is a reinforcing material that is used together with the excavation step by step during the underground excavation of slopes or buildings as described above. Excavation work can be carried out with low noise and low vibration because it uses relatively light weight equipment by reinforcing excavation slopes only with shotcrete or concrete facing, and the drilling depth for reinforcement area is much lower than earth anchor method. It is a short construction method that is very advantageous for the reduction of disputes caused by violating the borders of adjacent lands and for the construction of downtown areas.It is currently being applied and implemented at construction sites not only in foreign countries but also in Korea, and various applications such as research and acquisition of exclusive rights have been applied. It is actively done.

As such, the Soil-Nailing Method is a series of reinforcement work through the process of excavation or cutting, and excavates at a stable height to support the slope or the excavation surface at the same time as shotcrete. When constructing the surface protection surface and drilling the excavation back surface, inserting nails and grouting them to form a small nail anchor body.If you look briefly at the construction process, you will drill holes deeply downward in the ground of the earth wall. Insert the reinforcing nail of the reinforcing bar into the perforated hole, and then grout the solid by injecting and hardening grout material such as mortar, and fix the end of the reinforcing nail of the reinforcing bar, which is exposed to the ground, with the pressure plate. By fixing the wall to the earthen wall using a nut or the like to form a small nail anchor body of the slope pile.

At this time, the small nail anchor body is self-supporting by increasing the stiffness of the base plate against the earth pressure acting toward the excavation wall surface, that is, the earth wall, through the frictional resistance of the main surface of the grout and the pull-out resistance of the reinforcement nail which is inserted into the rebar. Nails, which are reinforcement materials that can resist tensile, shear and bending moments, are formed at relatively tight intervals without prestressing, increasing overall shear strength and restraining displacement during excavation and excavation. After completion, it is possible to suppress the ground loosening expected.

However, the small nail anchor body installed by the above-described method is usually constructed by reinforcing nails embedded in the ground invading adjacent land boundary lines. Has been pointed out such as air delay, payment of land use fee, obstacles in construction of neighboring areas, and environmental pollution due to corrosion.

Therefore, in order to solve the above problems, various methods for dismantling the reinforcement nail after removal of the reinforcement nail, which is a deformed reinforcing bar, have been proposed, and the utility model registered and pre-registered with the Korean Patent Office In the case of heading 283304, grooves matching the bar of the deformed steel bar are formed at the same interval as the bar at the bottom of the case, and outer friction nodes are formed at regular intervals to increase friction with the grout on the outside of the case, Insert the deformed bar into the bar, put up the compressive material on it, place the steel wire for removal on the compressive material, cover the cover and tie it up at regular intervals using a tie to prevent the cover from coming off. To remove, pull out the steel wire to the outside and pull it out of the case to remove it. It will go through a series of steps to pull it out.

However, in the above case, the compression material and the removal steel wire for fixing the deformed steel in addition to the deformed steel are required as essential components, and the work for fixing the deformed steel is complicated, and even after the work is completed, the compressed material and the removal for the sequential steel are sequentially obtained. There is a problem in that it takes a considerable amount of time due to the dismantling of steel wire, and remove the deformed steel bar.

On the other hand, Patent Registration No. 266391, filed and registered with the Korean Intellectual Property Office, has weak strength, such as synthetic resins, yogis, ferrous metals, and nonferrous metals, which can easily be broken with female threads formed on male threads formed along the outer circumference. After inserting into a hole previously drilled in the ground in the state of screwing the fixed rod, and filling grouting concrete mortar through a hose fitted around the fixed rod, and after a certain time to remove the nail from the fixed rod to provide a configuration Doing.

However, in such a configuration, the nail and the fixing rod are screwed as much as the entire length, so when the worker removes the nail from the fixing rod, the worker must hold the nail and turn it all the way along the thread, so that the time for removing the nail is long. There is a significant problem.

According to another method, the conventional blow-off nail has a contact supporting nail when the nailing is constructed vertically, and debris is collected on the lower floor so that the nail does not come into contact with the drawn nail. When constructed in the horizontal or upward inclination direction, the debris of the damaged support is gathered to one side, there is a problem that the nail is not caught because it is caught or caught between the nail and the assembly is drawn.

In addition, the conventional blow removal nail is a wedge (wedge) consisting of a plurality of pieces that bite the nail when the nailing is constructed vertically, and is opened or separated into pieces due to the blow. When constructed in an upward inclined direction, the debris of the destroyed support is gathered to one side and caught or caught between the nail and the assembly to be drawn, which makes it impossible to draw the nail.

In addition, the conventional blow removal nail is equipped with a single assembly at the tip of the nail to perform the support function for drawing only the inner end portion of the drilled hole to be active when the ground flow or crack occurs in the center of the nail There was a problem that can not support the collapse of the ground.

Due to this, no broken debris is generated due to the impact or drawing action, and the pair of bites that bite the nail are opened or spaced upon release of the pressing force so that the nail is held in close contact with the inner wall of the body so that it does not come into contact with the drawn nail. Nail assembly is desperately needed.

Accordingly, the present invention has been made in view of the problems of the prior art as described above to dismantle the tip assembly by rotating the nail, and then to remove or remove the nail simply by dismantling the intermediate assembly by hitting or pulling the nail. An object of the present invention is to provide a structure of a removable nail that can stably support a large area.

In addition, another object of the present invention is to configure the nail in various forms such as deformed steel reinforcing bar, steel pipe or steel bar can be selected and used according to the construction conditions or site conditions, and the manufacturing unit price by forming the male end only in the fastening part To save.

In addition, another object of the present invention is to disengage the fixed bite pieces that are not rotated with a small number of rotations, so that the pair of elastic bite pieces are spaced apart from each other when the pressing force is released, so as to closely support the inner wall of the body. have.

In addition, another object of the present invention is that the elastic claw pieces are separated by the elastic force when the pressing force is released so as to be in close contact with the inner surface of the body so as not to contact the nail and the claw bit drawn regardless of the construction direction of the nail constructed in the horizontal or upward direction There is.

In order to achieve the above object, the present invention is to remove the nail (Nail) inserted into the separation pipe for preventing the grouting and adhered to the boring hole in the ground for soil-Nailing (Soil-Nailing), The nail forms a helix or male threaded end of a spiral shape in a part or the entire length of one end and the longitudinal direction, respectively, and the distal end assembly for disassembling the fastening in a rotational manner that the inner surface of the nail or the male threaded end is fastened to the end of the nail. And at least one intermediate assembly which disassembles the fastening in a striking manner in which the inner surface is caught at a node or male tip at a point in the longitudinal direction of the nail spaced apart from the tip assembly, and rotates the nail in the tip assembly. In a removable nail configured to dismantle the fastening with the intermediate assembly by dismantling and then hitting or drawing the nail, The tip assembly is inserted into the interior of the cap-shaped first body having the support space of the nail formed with the node or the male end, and the first body in which the internal space is closed by the engagement of the second body is a bite that is rotationally fastened to the node or the male end. Insertion is configured to not rotate in the support space of the, to provide a structure of the removable nail, characterized in that configured to release the bite force of the nail by leaving the bite by the rotation of the nail.

As described above, the present invention can dismantle the tip assembly by rotating the nail, and then hit the nail to dismantle the intermediate assembly, which can be easily removed by hitting or pulling the nail, which can support a large area of the ground to be stabilized. It works.

In addition, it is possible to select and use nails in various forms such as deformed rebar, steel pipe, or steel bar, and to use them according to the construction conditions or site conditions. There is.

In addition, the construction of nails that are installed in a horizontal or upward direction by being spaced apart from each other and close to the inner wall of the body when the pressing force is released to the pair of elastic chucks which disengage the fixed claws so that they cannot be rotated with a small number of rotations, and then release the pressing force. Regardless of the direction, the nail and the bite that are drawn are not in contact with each other, so there is a stabilized effect for removal.

1 is an exploded perspective view showing a structure of a removable nail using a rotating and hitting method according to the present invention;
Figure 2 is a combined perspective view showing the structure of the removable nail using a rotating and hitting method according to the present invention,
3 is a perspective view of an example showing various kinds of nails according to the present invention;
4 is an exploded perspective view of the front assembly according to the present invention;
Figure 5 is a plan view showing the various support end appearance of the bite piece according to the present invention,
6 is an exploded perspective view of an intermediate assembly according to the present invention;
7 is an operation of connecting the elastic chucking piece to the elastic member of the leaf spring,
Figure 8a is an exploded perspective view showing the structure of a removable nail using a rotation and blow or pull method using a nail formed with a male end on one end and one longitudinal direction,
8B and 8C are perspective views of a state where a female threaded end engaged with a male threaded end is formed on the inner surfaces of the bite piece and the elastic bite piece, respectively;
Figure 9 is a cross-sectional view showing the structure of the removable nail using a rotating and hitting method according to the present invention,
10 is a cross-sectional view of the process of fastening the first and third bodies and the separation pipe using a compression ring;
11 is an operation of dismantling the tip assembly by rotating the nail in the nail assembly according to the invention,
12 is an operation of dismantling the intermediate assembly by hitting the nail in the nail assembly according to the invention,
13 and 14 is an operation diagram showing a state in which the elastic claw pieces connected to the coil spring and the leaf spring, respectively, when the nail strikes, moving away from the fitting space of the third body to the expansion space,
15 is a process diagram briefly showing the construction and removal process of the nail assembly using a rotating and hitting method according to the present invention,
16 is a perspective view showing the structure of the removable nail using a rotation and drawing method according to the present invention,
17 is a cross-sectional view showing the structure of the removable nail using a rotation and drawing method according to the present invention,
18 is an operation of dismantling the tip assembly by rotating the nail in the nail assembly according to the invention,
19 is an operation of dismantling the intermediate assembly by drawing a nail in the nail assembly according to the invention,
20 is a process diagram briefly showing the construction and removal process of the nail assembly using the rotation and drawing method according to the present invention,
21 and 22 are flowcharts illustrating a state in which the plate spring and the wire spring are inserted into the first and second bit pieces, and the first and second bit pieces are separated by the elastic force.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

Accordingly, the present invention can be classified into two types according to the dismantling method of the distal assembly 30 and the intermediate assembly 40 coupled to the nail 20, and the distal assembly 30 by rotating the nail 20. Dismantling method is the same, but the dismantling of the blow-type nail assembly (100A) and the distal end assembly 30 to disassemble the intermediate assembly 40 by hitting the nail 20 after dismantling of the distal end assembly (30) After the nail 20 is drawn out consists of a pull-out nail assembly (100B) to disassemble the intermediate assembly 40 and the fastening.

First, as shown in Figures 1 and 2 and 8 and 15, the blowable nail assembly 100A of the present invention is a structure of the removable nail is a hole for the ground (soil-Nailing) (soil-Nailing) Regarding the structure of the removable nail that can remove the nail 20 inserted into the separation tube 10 to prevent the grouting and the injection into the 200, the nail 20 is a node 21 or The tip assembly 30 is formed by forming a male tip 22, and the intermediate assembly is disassembled by a hitting method at a point in the longitudinal direction of the nail 20, which is fastened to the tip of the nail 20 and dismantled in a rotational manner. By fastening at least one 40, the nail 20 is configured to be removed by sequentially dismantling from the tip assembly 30 and the intermediate assembly 40 in the order of rotation and striking manner.

On the other hand, as shown in Figure 16 to 20, the pull nail assembly (100B) of the present invention is a grouting structure of the removable nail is injected into the boring hole 200 of the ground for soil-nailing (Soil-Nailing) Regarding the structure of the removable nail that can remove the nail 20 inserted into the separation tube 10 to prevent the attachment and the nail 20, the nail 20 or the male end 22 Formed and configured, the front end assembly 30 is fastened to the distal end of the nail 20 is dismantled in a rotational manner, and the intermediate assembly 40 dismantled in a pull-out method pulled to any point in the longitudinal direction of the nail 20 By fastening one or more, the nail 20 is configured to be removed by sequentially dismantling from the tip assembly 30 and the intermediate assembly 40 in the order of rotation and drawing.

Commonly, the separation pipe 10 used in the blowable nail assembly 100A and the drawn nail assembly 100B to prevent grouting from being attached to the nail 20 inserted into the drilling hole 200. It is manufactured separately from the synthetic resin material so that the nail 20 and grouting are separated from each other so as to facilitate the removal of the nail 20.

As shown in FIG. 3, the nail 20 is formed by forming a node 21 or a male spiral end 22 on one end and a part of the longitudinal direction or the entire length, respectively.

Here, the nail 20 may be composed of a deformed reinforcing bar in which a plurality of nodes 21 are evenly formed in a spiral shape along the circumferential direction.

In addition, the nail 20 may be made of any one of the metal rod or pipe-shaped steel pipe forming the male end 22 to one end or a part or the entire length of both ends.

At this time, the steel pipe may be configured to have a thickness required by the design in order to secure the tensile shear force to support the pull force.

As shown in FIGS. 1 and 2, 4, 9, 16, and 17, the front end assembly 30 has one end of the nail 20 in which the node 21 is formed to support the support space 31a. It is configured to be inserted into the first body 31 of the cap shape having.

This, the nail 20 is one end exposed in the state inserted into the separation tube 10 is partially inserted into the interior of the first body (31).

Here, the first body 31 has a first tube body 34 formed with a first female spiral hole (34a) in the center to helix the outer end of the separation tube (10).

Then, it is composed of a first main body 35 which is spirally fastened to the lower portion of the first pipe fastening body 34 and forms a support space 31a therein.

At this time, the bite piece 33 is rotated to the node 21 is configured to be inserted so as not to rotate in the support space (31a) of the first body 31, the inner space is closed by the coupling of the second body (32). do.

Here, a fastening hole 33b is formed in the center of the biting piece 33 so as to be spirally fastened with the node 21 of the nail 20.

Here, the second body 32 is configured to be spirally fastened with the separation pipe 10 so that grouting does not flow into the internal space of the first main body 35 constituting the first body 31 when the grouting is injected. .

As shown in FIG. 5, the outer circumferential surface of the support end 33a forming the bite piece 33 may be configured as any one of an ellipse shape, a triangular shape, a square shape, and a polygonal shape.

In addition, the inner circumferential surface of the support space 31a is composed of any one of an ellipse shape, a triangular shape, a square shape, and a polygonal shape so that the outer circumferential surface of the biting piece 33 can be inserted.

In this way, the outer circumferential surface shape of the biting piece 33 and the inner circumferential surface shape of the support space 31a are formed in a non-circular shape so that the support space of the first body 31 attached to the grouting when the nail 20 is rotated. At 31a, the bite piece 33 is configured not to rotate together along the rotating nail 20.

That is, the tip assembly 30 is configured to be released from the bite piece 33 by the rotation of the nail 20 to release the bite force of the nail (20).

As shown in FIGS. 1 and 2, 6, and 9, the intermediate assembly 40 used in the blowable nail assembly 100A has a narrow space at one end of the nail 20 where the nodes 21 are formed. And it is configured to penetrate the interior of the cap-shaped third body 41 having an internal space of a large space.

The third body 41 is configured in the form of a cap having an inner space of a narrow space and a wide space from the top.

In addition, a fourth body through which the separation pipe 10 into which the nail 20 is inserted, has a pair of elastic claws 43 formed in a semi-cylindrical shape, the inner surface of which is fastened to the node 21 and wrapped by dividing the circumference. Combination of (42) is configured to fit in the narrow space of the third body 41, the inner space is closed.

Here, the third body 41 is composed of a third tube fastening body 44 having a third female spiral hole 44a formed at the center thereof to be fastened to the outer end of the separation tube 10.

In addition, as the third main body 45 which is spirally fastened to the lower part of the third pipe fastening body 44 and the fitting space 45a which is a narrow space therefrom and the expansion space 45b which is a wide space communicate with each other. Configure.

That is, the intermediate assembly 40 used in the blow-type nail assembly 100A is in the order of the tip direction of the nail 20 to which the tip assembly 30 is fastened at the upper end of the nail 20 exposed to the ground. The third pipe fastening body 44 of the body 41-> the third main body 45 of the third body 41-> the fourth body 42 is coupled in the order of the elastic mesh piece 43 is the upper It is arranged to be separated in the downward direction.

As shown in Figure 16 and 17, the intermediate assembly 40 used in the pull-out nail assembly (100B) is the same as the intermediate assembly 40 used in the blow-type nail assembly (100A), the The intermediate assembly 40 used in the pull-out nail assembly 100B has a fourth body 42 in the order of the tip direction of the nail 20 to which the tip assembly 30 is fastened at the upper end of the nail 20 exposed to the ground. )-> The third main body 45 of the third body 41-> the third pipe body 44 of the third body 41 is coupled in the order of the elastic stitching piece 43 from the bottom to the upper direction It is arranged so as to be separated into a combination process as follows.

First, the fourth body 42 is coupled to the separation tube (10).

In addition, as long as it has a semi-cylindrical shape in which the inner surface is engaged with the node 21 or the male end 22 of the nail 20 having the node 21 or the male end 22 penetrating the fourth body 42. The pair of elastic stitching pieces 43 are combined to wrap the circumference.

Thereafter, while the nail 20 sequentially passes through a wide space and a narrow space, the third body 41 into which the elastic stitching piece 43 is fitted in the narrow space is combined with the fourth body 42.

That is, after disassembling the fastening with the tip assembly 30 by rotating the nail 20, the nail 20 is pulled apart and the elastic stitching piece 43 is spaced apart from each other while moving from a narrow space to a large space. It is configured to be dismantled.

Commonly, as shown in FIGS. 6 and 7, the elastic stitching piece 43 used in the blowable nail assembly 100A and the drawn nail assembly 100B has an inner surface at the node 21 of the nail 20. It is latched and is composed of a pair of semi-cylindrical shape to surround the circumference divided.

In such a state, the elastic stitching piece 43 is configured to fit in a narrow space of the third body 41 in which the inner space is closed by the engagement of the fourth body 42 in a state of being caught by the nail 20.

Here, looking at the embodiments of the elastic bite piece 43 can be divided into an operation form for releasing the bite force of the nail 20, it is divided into a form of rotating relative to one side end, facing away from each other.

As shown in FIG. 6, the elastic claw piece 43 rotates with respect to one side end thereof so that the groove 43a is formed on the inner surface of the elastic claw piece 43 so as to be engaged with the node 21 of the nail 20 formed in the form of a deformed rebar. The first and second stitch pieces 46 and 47 formed are formed.

In addition, the first and second engagement pieces 46 and 47 are connected to each other by an elastic member 48 so as to be spaced apart from each other. In the present invention, the elastic member 48 is configured in the form of a coil spring and a leaf spring. .

1. Coil-shaped spring shown in Figure 6: The elastic member 48 is in the form of a coil spring (48a) in the longitudinal direction of both end surfaces facing each other of the first and second engagement pieces (46, 47) Accordingly, at least one of the first and second fitting holes 46a and 47a into which both ends of the coil spring 48a are inserted is formed.

2. Spring in the form of a plate shown in FIG. 7: The elastic member 48 has an elastic force and is a plate spring 48b having a long length along the outer circumferential surface of the first and second engagement pieces 46 and 47. Both ends of the first and second circumferential grooves 46b and 47b formed to be recessed are configured to be coupled to the first and second bit pieces 46 and 47 by welding or bolting.

On the other hand, the fourth body 42 is fastened so that grouting does not flow into the inner space of the third main body 45 constituting the third body 41 when the grouting is injected.

Here, the fourth female screw hole 42a is formed at the center of the fourth body 42 so that the nail 20 having the tip assembly 30 assembled therein is inserted into the separation pipe 10. The nail 20 passes through 42a), and the separation tube 10 is configured to spirally fasten to the fourth female screw hole 42a.

That is, when the intermediate assembly 40 is separated from the narrow space by the movement of the nail 20 when the elastic assembly piece 43 is blown, the elastic assembly piece 43 is opened by the elastic force of the elastic member 48 and the nail 20 Release the bite force of the) and is configured to be in close contact with the wide space of the third body (41).

As shown in FIGS. 3 and 8A to 8C, a nail 20 having male threads 22 formed on one end portion and one end portion or the entire length direction of the nail 20 may be used. The male threaded end 22 in the steel bar shows an example formed in one end and one end in the longitudinal direction.

When the male threaded tip 22 is formed in the nail 20, the spiral fastening hole 33c having a female spiral formed in the biting piece 33 of the tip assembly 30 is formed.

The female threaded ends 43b may be formed of first and second bit pieces 46 and 47 formed on the inner surface of the nail 20 so as to be engaged with the male threaded ends 22 of the nail 20 formed in the steel bar shape.

That is, the structural difference between using the nail 20 on which the node 21 is formed and the nail 20 on which the male tip 22 is formed may be the bite piece 33 and the first and second bite pieces 46 and 47. There is a difference that the bite 21 and the bite or bite on the male end (22).

Commonly, as shown in FIG. 10, the coupling method of the separation pipe 10 and the first and third pipe assembly bodies 34 and 44 constituting the tip assembly 30 and the intermediate assembly 40 may include a first method. The third bodies 31 and 41 form the first and third tube bodies 34 and 44 that form first and third inclined holes 31b and 41b, respectively, which narrow as the inner to outer directions move. Form.

A compression ring having a 'C' shape on the outer circumferential surface of the separation pipe 10 inserted into the first and third inclined holes 31b and 41b of the first and third pipe fastening bodies 34 and 44. 11) Fit together.

At this time, the first and third pipe bodies 34 and 44 are fastened when the screw is fastened to the first and third main bodies 35 and 45 having a fixed position and the first and third pipe bodies 34 to be pulled. The compression ring 11 is contacted along the narrow inclined surfaces of the first and third inclined holes 31b and 41b by the 44 and is compressed to press the separation tube 10 so as not to be separated.

That is, the blow-type nail assembly 100A and the pull-out nail assembly 100B are dismantled in a spiral loosening manner in a fixed bite 33 that cannot be rotated when the nail 20 rotates, and then strikes the nail 20. Alternatively, when the elastic bite piece 43 is separated from the narrow space by the movement of the nail 20 by the drawing action, the elastic bite piece 43 is in close contact with the wide space of the first body 31 due to the elastic force, By releasing the bite force, even when the installation angle of the nail 20 is inclined, it is configured to prevent the nail 20 and the elastic bite 43 to be drawn out when the nail 20 is drawn out.

As shown in FIGS. 21 and 22, the elastic stitching piece 43 is a node 21 of the nail 20 as another embodiment of the striking nail assembly 100A and the drawn nail assembly 100B. The first and second bite pieces 46 and 47 having a groove 43a formed on the inner surface of the nail 20 or a female threaded end 43b formed on the inner surface of the nail 20 so as to be caught by the male threaded tip 22 of the nail 20. ).

In addition, the elastic member 48 may be configured in the form of a leaf spring 48b or in the form of a wire spring 48c such that the first and second engagement pieces 46 and 47 are spaced apart from each other.

The groove 43a or the female threaded end 43b is partially removed from the inner surface of the first and second bit pieces 46 and 47 on which the groove 43a or the female threaded end 43b is formed, so that the elastic member 48 ) May be configured to insert the insertion groove (43c) is pressed to be inserted in the state in which the nail (20) is pressed.

Here, the wire spring 48c may be composed of one or a plurality of plate springs, and both ends of the leaf springs 48b and the wire springs 48c are not fixed to the first and second engagement pieces 46 and 47, respectively. The leaf spring 48b and the wire spring 48c may be fixed to the first and second bit pieces 46 and 47 by welding. It will be possible to change configuration to be inserted into the insertion groove (43c).

In addition, when the first and second engagement pieces 46 and 47 are separated from the fitting space 45a of the third main body 45 to the expansion space 45b, the plate spring 48b and the wire spring 48c may be The diameter is restored to be expanded in a state in which it is pressed in a state supported by the insertion groove 43c, so that the first and second bit pieces 46 and 47 are spaced apart from contact with the nail 20.

Referring to the operation and action of the blow-type nail assembly (100A) and the pull-out nail assembly (100B) of the present invention as described above are as follows.

First, the blow type nail assembly 100A and the drawn nail assembly 100B used in the construction of the selected form or use of the nail 20, consisting of a rebar, steel bar, steel pipe, etc., in the present invention An example of using a deformed steel bar will be described below. Hereinafter, the construction and removal process of the hitting nail assembly 100A will be described as follows.

In the present invention, the order of assembling the tip assembly 30 and the intermediate assembly 40 to the nail 20 will be described in the order of an example of assembling the intermediate assembly 40 and then assembling the tip assembly 30. The order of assembly may change.

1 and 2, 4, 6, 9, 11 to 15, the nail 20 is inserted into the separation tube 10 in the present invention intermediate the tip assembly 30 and In order to use the assembly 40, two separation tubes 10 are used.

First, the third female spiral hole 44a of the nail 20 in the state of spirally fastening the third tube body 44 and the third main body 45 of the third body 41 of the intermediate assembly 40. ) And the third main body hole 45c and the fourth female spiral hole 42a of the fourth body 42 in order to penetrate sequentially.

Then, the separation pipe 10 is fitted to the nail 20 and one end of the separation pipe 10 is spirally coupled to the third female spiral hole 44a of the third pipe fastening body 44 to be coupled.

At this time, the nail 20 passes through the fitting space 45a of the third main body 45 to the expansion space 45b.

In addition, the other end of the separation tube 10 by inserting the other separation tube 10 through the other end of the nail 20, the separation tube 10 is not fitted to the fourth end of the fourth body 42 The screw is screwed into the female spiral hole 42a.

In this case, the third body 41 and the fourth body 42 are not fastened to each other, and the elastic stitching piece 43 is also fastened after assembling the front end assembly 30 while maintaining the state not being fastened with the nail 20. do.

Subsequently, the other end of the separation tube 10 which is spirally fastened to the fourth body 42 of the intermediate assembly 40 is the first tube assembly body 34 of the first body 31 constituting the tip assembly 30. ) And the first main body 35 in a spiral fastening state, the ends of the nail 20 sequentially penetrate the first female spiral hole 34a and the first main body hole 35a.

At this time, the end of the nail 20 is a node 21 of the nail 10 in the groove 43a formed in the fastening hole 33b of the biting piece 33 in a state where the end of the support space 31a Rotate to snap in a spiral fashion.

Here, the lower surface of the bite piece 33 will be preferably fastened to match the end of the nail (20).

Next, the elastic claw piece 43 is connected to the nail 20 exposed to the expansion space 45b by the first and second bit pieces 46 and 47 by a coil spring 48a or a leaf spring 48b. Wrap half of the nail 20 so that it is caught on the node (21).

In addition, the elastic claws 43 connected to the coil springs 48a are nailed to the grooves 43a of the first and second claws 46 and 47, which are separated from each other by the elastic force of the coil springs 48a. The first and second bite pieces 46 and 47 are pressed to be in close contact with each other while the node 21 is inserted into the bite.

In addition, the elastic claw piece 43 connected to the leaf spring 48b has a first end in a state where the ends 21 are inserted into the grooves 43a in a state where one end thereof is opened by the elastic force of the leaf spring 48b. 2, the bite pieces 46, 47 are pressed to be in close contact with each other.

Thereafter, the other end of the separation tube 10 connected to the first body 31 of the front end assembly 30 is spirally fastened to the fourth female spiral hole 42a of the fourth body 42, and then the nail 20 By pulling the upper portion so that the bite piece 33 is inserted into the support space 31a, the elastic bite piece 43 is inserted into the fitting space 45a of the third main body 45.

Next, the third main body 45 of the third body 41 is spirally fastened to the fourth body 42, and the first main body 35 of the first body 31 is the second body ( Spiral fastening to 32) to complete the fastening of the front end assembly 30 and the intermediate assembly 40 to the nail 20, respectively, to complete the assembly of the blow nail assembly (100A).

In this way, in order to implement the small nailing method using the blow-type nail assembly (100A) completed as an example, the ground to cut the nail construction as an example construction procedure-> first shoveling concrete on the cut ground-> excavation Forming a punching hole 200 in the ground by using the equipment-> inserting the blowable nail assembly (100A) into the interior of the drilled hole (200)-> of the punched hole 200 is inserted into the blown nail assembly (100A) 1st grouting pour into the interior-> Wire mesh (connected rebar) installation on the surface of the ground-> 2nd grouting pour into the inside of the drilling hole 200 is inserted into the blowable nail assembly (100A)-> 1st shockcrete pour Second shockcrete on the old ground-> pressure plate 300 and the nut 301 is fastened to the nail (20) exposed to the ground sequentially-> When the firing of the shockcrete and grouting is completed, the nail ( 20) Remove.

At this time, in order to remove the nail 20, if the operator rotates the rear end of the nail 20 exposed to the ground in a direction that is separated from the bite piece 33 by using a tool or a separate rotating equipment, the first end The body 31 and the second body 32 are prevented from rotating in a state of being attached to the grouting.

In addition, the bite piece 33 is supported in the support space (31a) of the first body 31 is prevented from rotating so that the node 21 of the nail 20 spirals in the groove (43a) of the bite piece 33 In the dismantling method, the interior of the separation tube 10 is rotated so that the nail 20 is rotated to the upper portion of the first body 31 to disengage the fastening with the front assembly 30.

Here, when the nail 20 is rotated for disassembly of the tip assembly 30, the nail 21 is also elastic while the nail 20 portion of the intermediate assembly 40 is also rotated together. In the groove 43a of the biting piece 43, the nail 20 is rotated in a dismantled manner so that the nail 20 rotates to the upper portion of the intermediate assembly 40.

Thereafter, when the nail 20 is detached from the tip assembly 30, when the worker hits the rear end of the nail 20 in a longitudinal direction using a blow tool or a blower, the nail 20 moves and elasticity. The first and second bit pieces 46 and 47 of the biting piece 43 move out of the fitting space 45a of the third main body 45 together with the nail 20 to the expansion space 45b.

Thus, the elastic claw piece 43 moved to the expansion space 45b is released by the restoring elastic force of the coil spring 48a when the compression force acted by the fitting space 45a is released and connected to the coil spring 48a. As the two ends are separated from each other, the outer circumferential portions of the first and second bit pieces 46 and 47 are in close contact with the inner circumferential surface of the expansion space 45b and are not supported and fixed.

In addition, when the elastic claw piece 43 is connected to the leaf spring 48b, one end of the leaf spring 48b is opened with respect to the inner circumferential surface of the expansion space 45b while the ends of the leaf spring 48b are separated from each other. It can't be fixed.

That is, the elastic claw piece 43 is in close contact with and fixed to the inner surface of the expansion space (45b) so that even when the construction direction of the nail 20 is constructed in a horizontal or upward inclination due to the characteristics that are unbreakable due to the blow It is characterized in that the bite force is surely and easily released in a state of not generating and contacting the nail 20.

Next, the nail 20 is removed by using the drawing equipment or by other methods, and the elastic stitching piece 43 is not in contact with the nail 20 drawn by being tightly supported and fixed to the inner surface of the expansion space 45b. As a result, there is a structurally stable feature by reliably removing instability in construction, which is impossible to draw due to jams.

13 and 14 and 16 to 20, when looking at the construction process of the pull-out nail assembly (100B) using two separation tubes (10).

First, the fourth body 42 of the intermediate assembly 40, the third main body 45 of the third body 41 and the third pipe fastening body 44 are arranged in a spiral from the upper direction to the lower direction. In the state, the nail 20 is sequentially penetrated through the fourth female spiral hole 42a-> the third female spiral hole 44a-> the third main body hole 45c.

At this time, the nail 20 passes through the expansion space 45b of the third main body 45 and passes through the fitting space 45a.

Thereafter, one end of the separation tube 10 positioned above the nail 20 is spirally fastened to the fourth female spiral hole 42a of the fourth body 42.

Next, while inserting the separation tube 10 through the other end of the nail 20, the separation tube 10 is not fitted at the same time one end of the separation tube 10 of the third tube fastening body 44 3 Spiral fastening to the female spiral hole (44a) is coupled.

Here, the male threaded end formed in the separation pipe 10 for spirally fastening to the third female spiral hole 44a of the third pipe fastening body 44 has a long length, and thus the spiral of the third pipe fastening body 44. By moving, the third body 41 may move in the up and down directions.

In this case, the third body 41 and the fourth body 42 are not fastened to each other, and the elastic stitching piece 43 is also fastened after assembling the front end assembly 30 while maintaining the state not being fastened with the nail 20. do.

Subsequently, the other end of the separation tube 10 which is spirally fastened to the fourth body 42 of the intermediate assembly 40 is the first tube assembly body 34 of the first body 31 constituting the tip assembly 30. ) And the first main body 35 in a spiral fastening state, the ends of the nail 20 sequentially penetrate the first female spiral hole 34a and the first main body hole 35a.

At this time, the end of the nail 20 is a node 21 of the nail 10 in the groove 43a formed in the fastening hole 33b of the biting piece 33 in a state where the end of the support space 31a Rotate to snap in a spiral fashion.

Here, the lower surface of the bite piece 33 will be preferably fastened to match the end of the nail (20).

Next, the elastic claw piece 43 is connected to the nail 20 exposed to the expansion space 45b by the first and second bit pieces 46 and 47 by a coil spring 48a or a leaf spring 48b. Wrap half of the nail 20 so that it is caught on the node (21).

In addition, the elastic claws 43 connected to the coil springs 48a are nailed to the grooves 43a of the first and second claws 46 and 47, which are separated from each other by the elastic force of the coil springs 48a. The first and second bite pieces 46 and 47 are pressed to be in close contact with each other while the node 21 is inserted into the bite.

In addition, the elastic claw piece 43 connected to the leaf spring 48b has a first end in a state where the ends 21 are inserted into the grooves 43a in a state where one end thereof is opened by the elastic force of the leaf spring 48b. 2, the bite pieces 46, 47 are pressed to be in close contact with each other.

Thereafter, the other end of the separation tube 10 connected to the first body 31 of the front end assembly 30 is spirally fastened to the fourth female spiral hole 42a of the fourth body 42, and then the nail 20 By pulling the upper portion of the bite piece 33 is inserted into the support space (31a) and the elastic bite piece 43 maintains a state that is not inserted into the fitting space (45a) of the third main body (45).

At this time, the third tube fastening body 44 of the third body 41 is rotated to move upwards so that the third female spiral hole 44a is spirally fastened to move along the separation pipe 10 so as to elastically sew ( 43 is inserted into the fitting space 45a of the third main body 45.

Next, the third main body 45 of the third body 41 is spirally fastened to the fourth body 42, and the first main body 35 of the first body 31 is the second body ( Spiral fastening to 32) to complete the fastening of the tip assembly 30 and the intermediate assembly 40 to the nail 20, respectively, to complete the assembly of the pull-out nail assembly (100B).

Thus, in order to perform the small nailing method using the assembled pull-out nail assembly 100B, the ground to be nailed is cut as an example construction procedure-> first shoveling concrete on the cut ground-> excavation Forming a punching hole 200 in the ground by using the equipment-> inserting the blowable nail assembly (100A) into the interior of the drilled hole (200)-> of the punched hole 200 is inserted into the blown nail assembly (100A) 1st grouting pour into the interior-> Wire mesh (connected rebar) installation on the surface of the ground-> 2nd grouting pour into the inside of the drilling hole 200 is inserted into the blowable nail assembly (100A)-> 1st shockcrete pour Second shockcrete on the old ground-> pressure plate 300 and the nut 301 is fastened to the nail (20) exposed to the ground sequentially-> When the firing of the shockcrete and grouting is completed, the nail ( 20) Remove.

At this time, in order to remove the nail 20, if the operator rotates the rear end of the nail 20 exposed to the ground in a direction that is separated from the bite piece 33 by using a tool or a separate rotating equipment, the first end The body 31 and the second body 32 are prevented from rotating in a state of being attached to the grouting.

In addition, the bite piece 33 is supported in the support space (31a) of the first body 31 is prevented from rotating so that the node 21 of the nail 20 spirals in the groove (43a) of the bite piece 33 In the dismantling method, the interior of the separation tube 10 is rotated so that the nail 20 is rotated to the upper portion of the first body 31 to disengage the fastening with the front assembly 30.

Here, when the nail 20 is rotated for disassembly of the tip assembly 30, the nail 21 is also elastic while the nail 20 portion of the intermediate assembly 40 is also rotated together. In the groove 43a of the biting piece 43, the nail 20 is rotated in a dismantled manner so that the nail 20 rotates to the upper portion of the intermediate assembly 40.

Thereafter, when the nail 20 is detached from the tip assembly 30, when the operator pulls the rear end of the nail 20 in the longitudinal direction by using a drawing tool or a drawing equipment, the nail 20 moves and is elastic. The first and second bit pieces 46 and 47 of the biting piece 43 move out of the fitting space 45a of the third main body 45 together with the nail 20 to the expansion space 45b.

Thus, the elastic claw piece 43 moved to the expansion space 45b is released by the restoring elastic force of the coil spring 48a when the compression force acted by the fitting space 45a is released and connected to the coil spring 48a. As the two ends are separated from each other, the outer circumferential portions of the first and second bit pieces 46 and 47 are in close contact with the inner circumferential surface of the expansion space 45b and are not supported and fixed.

In addition, when the elastic claw piece 43 is connected to the leaf spring 48b, one end of the leaf spring 48b is opened with respect to the inner circumferential surface of the expansion space 45b while the ends of the leaf spring 48b are separated from each other. It can't be fixed.

That is, the elastic claw piece 43 is in close contact with and fixed to the inner surface of the expansion space (45b), even if the construction direction of the nail 20 when the construction direction is horizontal or upward inclined due to the characteristics that are not broken due to the blow It is characterized in that the bite force is surely and easily released in a state of not generating and contacting the nail 20.

When the nail 20 is drawn out by the continuous drawing action, the elastic stitching piece 43 is held in close contact with and fixed to the inner surface of the expansion space 45b, so that the nail 20 does not come into contact with the nail 20 that is drawn. It is a structurally stable feature by reliably removing construction instability that is impossible to draw.

Commonly, in the present invention, when the nail 20 is rotated about two to three rotations using a deformed steel bar used for rock bolts in order to dismantle the nail 20 in the tip assembly 30, It simply slips away completely with a small number of revolutions.

In addition, the intermediate assembly 40 used in the blow-type nail assembly (100A) and the pull-out nail assembly (100B) of the present invention is to be applied to a removable nail or a removable rock bolt according to the conventional method The assembly 30 and the intermediate assembly 40 are not only possible to mix and install, but also independently of each other, it is characterized by the ability to expand the applicability to civil engineering, building construction.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

10: separation pipe 11: compression ring
20: nail 21: node
22: male tip 30: tip assembly
31: first body 31a: support space
31b: first inclined hole 32: second body
33: stitched portion 33a: support end
33b: fastening hole 33c: spiral fastening hole
34: First tube body
34a: 1st female spiral hole 35: 1st main body
35a: first main body hole 40: intermediate assembly
41: third body 41b: third inclined hole
42: fourth body
42a: fourth female helix hole 43: elastic claw
43a: groove 43b: female end
44: third tube body 44a: third female spiral hole
45: third main body 45a: fitting space
45b: expansion space 45c: third main body hole
46: first engagement piece 46a: first fitting hole
46b: 1st column groove 47: the second bite
47a: 2nd fitting hole 47b: 2nd circumferential groove
48: elastic member 48a: coil spring
48b: leaf spring 48c: wire spring
100A: Blowable Nail Assembly 100B: Drawing Nail Assembly
200: drilling hole 300: acupressure plate
301: Nut

Claims (28)

delete delete delete The nail 20 to remove the nail 20 inserted into the separation pipe 10 for preventing grouting and attachment to the grouting hole injected into the ground drilling hole 200 for soil-nailing. ) Forms a helix 21 or male end 22 in the form of a spiral or a part of one end and the entire length, respectively, and the end of the nail 20 to the node 21 or male end 22. Assemble the tip assembly 30 to disassemble the fastening in a rotational manner that the inner surface is caught, the node 21 or male end 22 at any point in the longitudinal direction of the nail 20 spaced apart from the tip assembly 30. ) Is composed of one or more intermediate assembly 40 to disassemble the fastening in the blow method that the inner surface is caught, dismantling the tip 20 by rotating the nail 20 and then hit the nail 20 In the removable nail configured to disassemble the fastening with the intermediate assembly 40,
The tip assembly 30 is inserted into the cap-shaped first body 31 having the support space 31a of the nail 20 in which the node 21 or the male tip 22 is formed.
The bite piece 33 that is rotationally fastened to the node 21 or the male end 22 is not rotated in the support space 31a of the first body 31 in which the internal space is closed by the coupling of the second body 32. Do not let insert configuration,
The structure of the removable nail, characterized in that configured to release the bite force of the nail 20 by leaving the bite piece 33 by the rotation of the nail (20).

The first body 31 has a first tube tightening body (34) having a first female spiral hole (34a) formed in the center to helix the outer end of the separation pipe (10),
Spiral fastening to the lower portion of the first tube fastening body 34 and characterized in that it consists of a first main body 35 to form a support space (31a) is inserted so that the biting piece 33 is not rotated therein Structure of removable nails.
The outer circumferential surface of the support end 33a forming the biting piece 33 is configured in any one of an ellipse shape, a triangular shape, a square shape, and a polygonal shape.
The inner peripheral surface of the support space (31a) is a structure of the removable nail, characterized in that configured to any one of the elliptical shape, triangular shape, square shape, polygonal shape so that the outer peripheral surface of the biting piece (33).
5. The nail according to claim 4, wherein the intermediate assembly 40, which is spaced apart from the tip assembly 30 formed of the first body 31 and the second body 32, is formed with a node 21 or a male threaded tip 22. One end of the through (20) penetrates through the interior of the cap-shaped third body 41 having a narrow space and an inner space of a large space,
An inner surface is caught by the node 21 or the male end 22, and a pair of elastic chucking pieces 43 formed of a semi-cylindrical shape surrounding the circumference divides the separation tube 10 into which the nail 20 is inserted. It is configured to fit in the narrow space of the third body 41, the inner space is closed by the combination of the fourth body 42,
When the elastic stitching piece 43 is separated from the narrow space by the movement of the nail 20 during the striking, the elastic stitching piece 43 is opened so as to be in close contact with the wide space of the third body 41 by the elastic force, and thus the biting force of the nail 20 is increased. The structure of the removable nail, characterized in that configured to release.
According to claim 7, wherein the third body 41 and the third tube fastening body 44 having a third female spiral hole (44a) formed in the center so that the spiral end to the outer end of the separation pipe 10,
Consists of a third main body 45 which is spirally fastened to the lower portion of the third pipe fastening body 44 and the fitting space 45a which is a narrow space therefrom and the expansion space 45b which is a wide space communicate with each other. The structure of the removable nail, characterized in that.
The method of claim 7, wherein the elastic stitching piece 43 to form a groove 43a on the inner surface so as to be engaged with the node 21 of the nail 20, or to be caught by the male threaded end 22 of the nail 20; The female threaded end 43b is composed of the first and second bit pieces 46 and 47 formed on the inner surface thereof.
The structure of the removable nail, characterized in that the first and second bite pieces 46, 47 are configured to be connected to the elastic member 48 so as to be spaced apart from each other.
10. The coil spring 48a according to claim 9, wherein the elastic member 48 is in the form of a coil spring 48a along the longitudinal direction of both end surfaces of the first and second bit pieces 46 and 47 facing each other. Both ends of the structure of the removable nail, characterized in that to constitute one or more first and second fitting holes (46a) (47a) to be inserted respectively.
10. The method of claim 9, wherein the elastic member 48 is an elastic force having a long plate-like leaf spring 48b is formed to be recessed along the outer circumferential surface of the first and second engagement pieces 46, 47, The structure of the removable nail, characterized in that the two end grooves (46b) (47b) in the state fitted to the first and second bite pieces (46) (47) by combining the two ends in the welding method or bolt fastening method.
8. The first and third pipe fastenings according to claim 7, wherein the first and third bodies 31 and 41 form first and third inclined holes 31b and 41b, which narrow as the inner to outer directions move. Body 34, 44,
Compression ring 11 of the 'C' shape on the outer circumferential surface of the separation pipe 10 inserted into the through the first and third inclined holes 31b and 41b of the first and third pipe fastening bodies 34 and 44. By fitting
Compression ring by the first and third tube bodies 34, 44, which are pulled when the first and third tube bodies 34, 44 and the first and third main bodies 35 and 45 are spiral fastened. 11) The structure of the removable nail, characterized in that configured to press the contact along the narrow area of the first and third inclined holes (31b, 41b) to be compressed so that the separation tube (10) does not leave.
delete delete delete delete delete delete delete The nail 20 to remove the nail 20 inserted into the separation pipe 10 for preventing grouting and attachment to the grouting hole injected into the ground drilling hole 200 for soil-nailing. ) Forms a helix 21 or male end 22 in the form of a spiral or a part of one end and the entire length, respectively, and the end of the nail 20 to the node 21 or male end 22. Assemble the tip assembly 30 to disassemble the fastening in a rotational manner that the inner surface is caught, the node 21 or male end 22 at any point in the longitudinal direction of the nail 20 spaced apart from the tip assembly 30. ) Is assembled to at least one intermediate assembly 40 for disassembling the fastening in the drawing method, the nail 20 is rotated to dismantle from the tip assembly 30 and then the nail 20 is drawn out. In the removable nail configured to disassemble the fastening with the intermediate assembly 40,
The intermediate assembly 40 is coupled to the separation pipe 10, the fourth body 42,
A pair of semi-cylindrical shapes in which the inner surface is engaged with the node 21 or the male end 22 of the nail 20 having the node 21 or the male end 22 penetrating the fourth body 42 is formed. The elastic stitching piece 43 is combined so as to divide and wrap the circumference,
While the nail 20 sequentially passes through a wide space and a narrow space, the third body 41 in which the elastic stitching piece 43 is fitted in a narrow space is combined with the fourth body 42,
After dismantling the fastening with the tip assembly 30 by rotating the nail 20, the nail 20 is pulled apart and the elastic claw piece 43 is moved from a narrow space to a wide space and is spaced apart from each other. The structure of the removable nail, characterized in that configured to.
delete delete delete delete delete delete The method of claim 7, wherein the elastic stitching piece 43 to form a groove 43a on the inner surface so as to be engaged with the node 21 of the nail 20, or to be caught by the male threaded end 22 of the nail 20; The female threaded end 43b is composed of the first and second bit pieces 46 and 47 formed on the inner surface thereof.
By forming the elastic member 48 formed in the form of a leaf spring (48b) or a wire spring (48c) so that the first and second bit pieces 46, 47 are spaced apart from each other,
The grooves 43a or the female threaded ends 43b formed on the inner surfaces of the first and second bit pieces 46 and 47 are partially removed so that the elastic member 48 is rolled in the state of being fitted into the nail 20. Removable nail structure, characterized in that each configured to be inserted into the insertion groove (43c) is pressed. delete

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