KR200488678Y1 - Sleeve withdrawal device - Google Patents

Abstract

The present invention relates to a sleeve take-out apparatus for pulling out a sleeve of an anchor bolt embedded in a structure, wherein one end is inserted into a vertical hole penetrating the inside of the sleeve in the longitudinal direction and the other end is exposed from the sleeve to the outside And a rod portion inserted into the hollow of the body portion and formed longer than the body portion. The rod portion includes a guide portion formed to be straight in the longitudinal direction, The tapered portion may include a tapered portion extending from a first end corresponding to one end of the body portion and having a tapered shape gradually increasing in outer diameter from the first end.

Description

Sleeve withdrawal device < RTI ID = 0.0 >

The present invention relates to a sleeve take-off device.

Generally, anchor bolts and sleeves are installed to secure objects to structures such as buildings and nuclear reactors. To fix the object, a hole is formed in the structure, the anchor bolt and the sleeve are put into the structure, and then the anchor bolt is rotated to fix the object to the structure.

At this time, the sleeve is inserted into the structure, and the anchor bolt is partially exposed to the outside of the structure to fix the object.

The sleeve is caught in the inside of the structure while being fitted to the outer surface of the inserted anchor bolt.

However, in the case of an anchor bolt, it can be pulled out with a tool, but there is a problem that the sleeve embedded in the structure is difficult to be drawn out.

Therefore, it is necessary to develop a device capable of pulling out a sleeve embedded in a structure.

The object of the present invention is to provide a sleeve withdrawing device capable of withdrawing a sleeve embedded in a structure.

Another object of the present invention is to provide a sleeve taking-out apparatus capable of taking out a sleeve by being bound to a sleeve embedded in a structure without damaging the structure.

Another object of the present invention is to provide a sleeve taking-out apparatus capable of increasing the durability of a structure by making it possible to take out the sleeve without damaging the structure.

Another object of the present invention is to provide a sleeve taking-out apparatus capable of stably pulling out a sleeve regardless of the skill of a worker.

The present invention relates to a sleeve take-out apparatus for pulling out a sleeve of an anchor bolt embedded in a structure, wherein one end is inserted into a vertical hole penetrating the inside of the sleeve in the longitudinal direction and the other end is exposed from the sleeve to the outside And a rod portion which is inserted into the hollow of the body portion and is longer than the body portion, the body portion being formed along the outer surface, the protrusion being protruded in the horizontal direction from the outer surface, Wherein the rod portion includes a guide portion formed to be straight in the longitudinal direction and a tapered portion extending from the first end corresponding to one end of the body portion at both ends of the guide portion and gradually increasing in outer diameter as the end portion is farther from the first end, And a tapered part formed in the shape of a rod, the rod part being inserted into the hollow of the body part, The body portion is extended in the horizontal direction perpendicular to the longitudinal direction by the tapered portion as the body moves relatively to the body portion in one direction and the body portion is bound to the sleeve through the expanded portion by the tapered portion, The hollow of the body part is formed to correspond to the outer peripheral surface of the guide part and communicates with the guide hollow and the guide hollow in which the guide part is disposed at the initial position, And a tapered hollow in which the tapered part is disposed at an initial position, wherein the projection is formed to correspond to a point spaced in a first direction at a connection point between the tapered hollow and the guide hollow, As it moves relative to the body portion, the tapered part enters the guiding hollow in the tapered hollow The protrusion extends further in a horizontal direction than the initial position and extends through the sleeve in a horizontal direction in the vertical hole of the sleeve and extends in a second direction opposite to the first direction, as the tapered part expands, And the protruding portion is formed at a position spaced apart from the connection point in the first direction so that even when one end of the body portion is inserted into only a part of the vertical hole, .

As a result, the sleeve embedded in the structure can be taken out, and workability can be improved at the time of construction.

Further, without damaging the structure, the structure can be bound to the sleeve embedded in the structure, and the sleeve can be drawn out.

Further, the sleeve can be drawn out without damaging the structure, so that the durability of the structure can be improved.

Further, regardless of the skill of the operator, the sleeve can be stably pulled out.

1 is a schematic view showing a sleeve take-out apparatus according to an embodiment of the present invention.
2 is an exploded view of the sleeve take-off device of FIG.
3 is a cross-sectional view illustrating coupling of the sleeve take-off device of FIG.
Fig. 4 is a schematic view showing that the body part of Fig. 1 is bound to the sleeve and pulls out the sleeve. Fig.
5 is a perspective view of the sleeve.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the embodiments of the present invention.

Generally, anchor bolts and sleeves are connected to the structure to fix things such as facings to the structure. In this case, one end of the anchor bolt is inserted into the structure, and the other end is exposed to the outside of the structure. The outer surface of the anchor bolt is inserted into the structure with the sleeve inserted.

If the anchor bolt is stuck to the structure while the sleeve is fitted to the outer surface of the anchor bolt, the anchor bolt can be pulled out using a tool, but the sleeve embedded in the structure is difficult to pull out.

The sleeve take-out apparatus according to the present embodiment relates to a device for pulling out a stuck sleeve to a structure. More specifically, the sleeve take-out apparatus according to the present embodiment is characterized in that the sleeve is bound to a sleeve embedded in the structure without damaging the structure, and the sleeve is taken out to the outside.

In order to withdraw the sleeve of the anchor bolt embedded in the structure, the sleeve is taken out by an anchor bolt using a tool, and then the sleeve is drawn out by a sleeve take-out device.

As shown in Figs. 1 and 3, the sleeve take-out apparatus includes a body portion 10, a rod portion 20, and the like. The body portion 10 is inserted into the vertical hole 2 penetrating the inside of the sleeve 1 in the longitudinal direction. When one end is inserted into the vertical hole 2 penetrating the inside of the sleeve 1 in the longitudinal direction, the other end is exposed from the sleeve 1 to the outside. The sleeve 1 is embedded in the structure 8 so that the other end of the body 10 can be exposed to the outside of the structure 8.

As shown in Figs. 1 and 2, the rod portion 20 is inserted into the hollow 14 of the body portion 10. The rod portion 20 is formed longer than the body portion 10 and can be configured to help the body portion 10 pull out the sleeve 1. [

The rod section (20) includes a guide part (21) and a tapered part (22). The guide part 21 is formed straight in the longitudinal direction.

The tapered part 22 extends into the guide part 21. [ The tapered part 22 extends from a first end corresponding to one end of the body part 10 at both ends of the guide part 21. The tapered part 22 is configured to gradually increase its outer diameter as it is farther from the first end. The tapered part 22 may be formed in a tapered shape. The present invention is not limited to the tapered part 22, and it is satisfactory if the shape gradually increases as the distance from the first end increases.

The rod portion 20 is inserted into the hollow 14 of the body portion 10 through one end of the body portion 10. 2, the hollow 14 of the body portion 10 may include a guide hollow 12, a tapered hollow 13, The guide hollow 12 may be formed to correspond to the outer circumferential surface of the guide part 21. The tapered hollow (13) can be configured to communicate with the guide hollow (12). The tapered hollow 13 may be formed to correspond to the outer circumferential surface of the tapered part 22.

The rod portion 20 is inserted through one end of the body portion 10 so that the guide hollow portion 12 and the tapered portion 22 can be disposed in the hollow portion 12 and the tapered hollow portion 13, respectively.

1, the maximum outer diameter of the body portion 10 in the state of being inserted into the hollow 14 of the body portion 10 is larger than the maximum outer diameter of the body portion 10 in the vertical hole 2 of the sleeve 1, As shown in FIG.

As shown in A-A 'of FIG. 1, the body portion 10 may be formed with a cutout groove 18 cut in a direction from one end to the other end. As the rod portion 20 moves relative to the body portion 10 in the state of being inserted into the hollow portion 14 of the body portion 10, The unit 10 can be configured to be expandable.

4, the rod portion 20 moves relative to the body portion 10 in the first direction in which the sleeve 1 is pulled out, so that the tapered portion 22 allows the body portion 10 ) In the horizontal direction perpendicular to the longitudinal direction.

1 and 2, the guide part 21 can be disposed in the guide hollow 12 at an initial position before the rod part 20 moves in the first direction The tapered part 22 may be disposed in the tapered hollow 13 when the tapered part 22 is at the initial position.

 The initial position may be a position before the rod 20 inserted in the hollow 14 moves in the first direction.

As shown in Figure 4, the tapered part 22 is tapered from the tapered hollow 13 to the guide hollow 12 (as shown in Figure 4) as the rod 20 moves relative to the body 10 in a first direction in an initial position, . ≪ / RTI >

As shown in C-C 'of FIG. 4, by moving the tapered part 22, the body part 10 can be enlarged and the gap of the incision groove 18 can be made wider.

The incision groove 18 may be formed so that the body portion 10 extends in the horizontal direction perpendicular to the longitudinal direction. The incision groove 18 may be configured to allow extension of the body portion 10 by the tapered portion 22.

One end of the body part 10 can be expanded by the incision groove 18 and the circumference of one end of the body part 10 can be configured to become larger at the initial position.

For example, as shown in FIG. 4, when the tapered part 22 moves in the first direction, one end of the body part 10 can be expanded. The guide hollow 12 may be configured to allow only a portion of the tapered part 22 to move.

The tapered part 22 can pass through the tapered hollow 13 to enter a part of the guide hollow 12 and the circumference of the body part 10 can be expanded by the incision groove 18.

The body portion 10 can be fastened to the sleeve 1 through the extension portion by the tapered portion 22.

For example, along the length of the incision groove 18, the length in which the body portion 10 extends in the horizontal direction perpendicular to the longitudinal direction can be adjusted. For example, depending on the material of the body 10, the length of the incision groove 18 may be formed.

The body 10 can be configured to pull the sleeve 1 as it is engaged in the sleeve 1 and then moves in the first direction. For example, the body portion 10 and the rod portion 20 may be chromium molybdenum steel, SCM 4 material.

The maximum outer diameter of the body portion 10 in the horizontal direction is substantially the same as that of the vertical hole 2 of the sleeve 1 at the initial position before the rod portion 20 inserted in the hollow 14 moves in the first direction Diameter. ≪ / RTI > The maximum outer diameter of the body portion 10 can be freely inserted into the vertical hole 2 before the tapered portion 22 expands.

As shown in Fig. 4, the body portion 10 may further include a protrusion 15 to be engaged with the sleeve 1. As shown in Fig. The protrusion 15 may be formed along the outer surface of the body 10 and may protrude horizontally from the outer surface.

The projecting portion 15 can be further projected in the horizontal direction than the initial position, as the tapered portion 22 expands.

The projecting portion 15 may be formed to correspond to a point spaced apart from the connection point between the tapered hollow 13 and the guide hollow 12 in the first direction.

For example, the protrusion 15 may be formed to protrude in the horizontal direction of the body portion 10. As the body portion 10 expands, one end of the body portion 10 approaches the inner side of the sleeve 1 The projecting portion 15 can be configured to abut the inside of the sleeve 1. [0050] For example, the projecting portion 15 may be disposed at an angle of 90 degrees or more on the outer surface of the body portion 10.

4 and 5, the sleeve 1 may be formed with a through hole 4 passing through the sleeve 1 in the horizontal direction in the vertical hole 2. [ The through-hole 4 may be formed only partly with respect to the longitudinal direction of the sleeve. For example, the through holes 4 may be formed in a second direction opposite to the first direction with respect to the sleeve 1.

For example, the protrusion 15 can be inserted into the through-hole 4 by the extension of the body portion 10. The body 10 may be configured to move in the first direction so that the protrusion 15 is caught in a portion where the through hole 4 is not formed. The protruding portion 15 is engaged with the retaining jaw 3 of the sleeve 1 defined by the through hole 4 so that the body portion 10 can be bound to the sleeve 1. [

When the body 10 is moved in the first direction, the projections 15 are engaged with the engaging jaws 3 to move the sleeve 1 in the first direction so that the sleeve 1 As shown in Fig.

Although the tapered part 22 is shown in FIG. 4 as extending from the tapered hollow 13 to the guide hollow 12, one end of the body 10 is extended. The tapered hollow portion 13 is formed to be smaller in diameter than the tapered portion 22 so that the tapered portion 22 is located in the tapered hollow portion 13 and the body portion 10 are extended so that the projecting portion 15 is engaged with the engaging jaw 3 is also possible.

As shown in Figs. 2 to 4, the sleeve 1 pulling device according to the present embodiment further includes a nut portion 30. Fig. The nut portion 30 may be disposed such that the rod portion 20 is inserted into the hollow 14 of the body portion 10 to secure the expanded body portion 10 when the body portion 10 is expanded .

The nut portion 30 is formed with the inner circumferential surface threads 31 corresponding to the threads 25 formed on the outer peripheral surface of the second end side corresponding to the other end of the body portion 10 at both ends of the guide portion 21 Can be screwed into the guide part (21).

3 and 4, the nut portion 30 is formed in a state in which the rod portion 20 is supported by the distal end of the body portion 10 while being inserted into the hollow 14 of the body portion 10 And may be configured to move the rod portion 20 relative to the body portion 10 in the first direction as it rotates.

4, as the rod portion 20 moves relative to the body portion 10 in the first direction at the initial position, the nut portion 30 moves along the tapered portion 22 May be configured to enter the guiding hollow 12 from the tapered hollow 13 to expand the body portion 10.

For example, as the nut portion 30 moves relative to the body portion 10 in the first direction relative to the rotation of the rod portion 20 in its initial position, the body portion 10 is in an expanded state . The rod portion 20 is formed to be longer than the body portion 10 in a state where the rod portion 20 is inserted into the hollow 14 of the body portion 10 and the nut portion 30 is formed to be longer than the body portion 10, 21, in accordance with its own rotation, to press the other end of the body part 10. [0035] By the engagement of the guide part 21 and the nut part 30, the body part 10 can be kept in an expanded state.

For example, after the nut portion 30 is screwed onto the guide portion 21, the pressing portion 40, which will be described later, can be fastened.

For example, when releasing the coupling between the guide part 21 and the nut part 30, the nut part 30 rotates in the opposite direction, and the rod part 20 inserted in the hollow part 14 moves in the first direction It can be restored to the position before moving.

As shown in Figs. 3 and 4, the sleeve take-out apparatus according to the present embodiment may further include a pressing portion 40. Fig. The pressing portion 40 may include a supporting part 41, a moving part 42,

The support part 41 may be formed with a receiving groove 45 for receiving the second end side of the guide part 21. A thread 46 may be formed on the inner circumferential surface defining the receiving groove 45 so as to correspond to the thread 25 of the guide part 21 and screwed to the guide part 21. [

 The moving part 42 may have an insertion hole 47 formed therein so that the support part 41 is inserted. The moving part 42 can be configured to move in the first direction along the support part 41 or in the second direction opposite to the first direction with the support part 41 inserted in the insertion hole 47 have.

For example, the moving part 42 may be for the user's grip. The moving part 42 may be configured so that the outer circumferential surface is roughly processed to increase the frictional force.

The pressing portion 40 may further include an engaging part 43. The engaging part 43 may be provided at the end of the support part 41 in the first direction. The engaging part 43 may protrude in a direction perpendicular to the first direction. The sleeve 1 fastened to the body 10 as the moving part 42 strikes the fastening part 43 while moving in the first direction in a state where the supporting part 41 is screwed to the guide part 21, May be configured to be urged in a first direction.

A thread 52 may be formed on the distal end side of the support part 41 in the first direction. The engaging part 43 may be threaded on the inner circumferential surface 53 in correspondence with the thread 52. The engaging part is screwed to the support part 41 and can be configured to regulate the moving distance of the moving part 42 as it moves along the support part 41 with its own rotation.

For example, when the engaging part 43 is disposed on the distal end side of the support part 41 in the first direction, the moving part 42 may have a longer moving distance in the first direction. The moving distance of the moving part 42 in the first direction can be made shorter when the engaging part 43 is disposed so as to be spaced from the distal end side in the first direction of the support part 41 to the second direction side.

In accordance with the movement of the moving part 42 in the first direction, the sleeve 1 bound to the body part 10 can be configured to be pressed in the first direction.

For example, the pressing portion 40 may include an additional engaging portion 44. The additional engaging part 44 may be provided on the distal end side of the opposite ends of the support part 41 in the second direction. The additional engaging part 44 may be for preventing the moving part 42 from moving in the second direction and being separated from the supporting part 41. [

The additional engaging part 44 may be formed with a thread 54 on the inner circumferential surface corresponding to the thread 55 formed on the distal end side of the support part 41 in the second direction. The engaging part 43 and the additional engaging part 44 may be configured to regulate the moving distance of the moving part 42. [

For example, when the length of the support part 41 is long, it is easy to pull out even if only the engagement part 43 is disposed. However, when the length of the support part 41 is short, . In order to prevent this, the additional engaging part 44 may be disposed to prevent the moving part 42 from being detached from the supporting part 41. [

For example, when the diameter of the nut portion 30 is larger than the outer circumference of the support part 41, the additional engaging part 43 may not be disposed.

The user moves the moving part 42 in the first direction and hits the moving part 42 to the engaging part 43 so that the supporting part 41 moves in the first direction The engaged sleeve 1 can be pulled out in the first direction. 4, the body portion 10 is arranged to be engaged with the sleeve 1 by the protruding portion 15 bound to the locking jaw 3, and the engaging portion 43 is engaged with the moving part The sleeve 1 may be configured to be pulled out of the structure 8. [ Any person can stably pull out the sleeve 1 stuck in the structure 8 through the sleeve withdrawing device regardless of the skill of the operator.

In addition, the sleeve 1 embedded in the structure 8 can be taken out without damaging the structure 8, and workability can be improved at the time of construction. When the structure 8 is a radiation zone, it is possible to prevent the operator from being exposed to a large amount of radiation when the sleeve 1 is pulled out through the sleeve withdrawing device.

The description above is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in this specification are intended to illustrate rather than limit the technical idea of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas which are within the scope of the same should be interpreted as being included in the scope of the present invention.

1: Sleeve 2: Vertical hole
3: hanging chin 8: structure
10: Body part 14: hollow
15: structure 18: incision groove
20: rod section 21: guide part
22: Tapered part 30: Nut part
40: pressing part 41: supporting part
42: moving part 43: engaging part

Claims (12)

A sleeve take-off device for withdrawing a sleeve of an anchor bolt embedded in a structure,
A body portion having one end inserted into the vertical hole penetrating the inside of the sleeve in the longitudinal direction and the other end exposed from the sleeve to the outside when the one end is inserted into the vertical hole and having a hollow penetrating the inside in the longitudinal direction; And
And a rod portion inserted into the hollow of the body portion and formed longer than the body portion,
The body portion includes a protrusion formed along the outer surface and protruding in the horizontal direction from the outer surface,
The load unit includes:
A guiding part formed to be straight in the longitudinal direction and a tapered shape extending from a first end corresponding to the one end of the body part at both ends of the guiding part and gradually increasing in outer diameter from the first end, And a tapered part formed,
The rod portion is inserted into the hollow portion of the body portion, and as the body moves relative to the body portion in a first direction in which the sleeve is pulled out, the body portion is horizontally Direction,
Wherein the body portion is coupled to the sleeve through an extended portion formed by the tapered portion, and when the body portion moves in the first direction after the binding,
The hollow of the body portion
A guide hollow formed corresponding to an outer circumferential surface of the guide part and having the guide part disposed at an initial position; And
A tapered hollow communicating with the guide hollow and corresponding to an outer circumferential surface of the tapered part, wherein the tapered part is disposed at the initial position;
/ RTI >
Wherein the projecting portion is formed to correspond to a point spaced apart from the tapered hollow and the guide hollow at a connection point in the first direction,
As the rod moves relative to the body portion in the first direction at the initial position, the tapered portion enters the guide hollow at the tapered hollow and expands the body portion, The protruding portion may protrude further than the initial position in the horizontal direction and may extend through the sleeve in the horizontal direction in the vertical hole of the sleeve so as to extend through the sleeve in a through hole formed to extend in a second direction opposite to the first direction Wherein the sleeve is configured to engage with the engagement jaw of the sleeve defined by the sleeve,
Wherein the protruding portion is formed at a position spaced apart from the connection point in the first direction so that one end of the body portion provides a binding force even when inserted into only a part of the vertical hole. delete delete delete delete The method according to claim 1,
Wherein the maximum outer diameter of the body portion in the horizontal direction is smaller than the diameter of the vertical hole of the sleeve at an initial position before the rod inserted in the hollow moves in the first direction, Wherein the first portion is freely inserted into the vertical hole. The method according to claim 1,
Wherein the body portion is formed with a cutting groove which is cut in the direction from the one end toward the other end to allow the body portion to be expanded by the tapered portion. The method according to claim 1,
Further comprising a nut portion having a thread formed on an inner circumferential surface of the guide portion and corresponding to a screw thread formed on an outer circumferential surface of a second end side corresponding to the other end of the guide portion,
Wherein the nut portion moves the rod portion relative to the body portion in the first direction as it rotates while being supported by the distal end of the body portion. The method of claim 8,
A support part formed with a receiving groove for receiving a second end side of the guide part and having a thread corresponding to a thread of the guide part on an inner circumferential surface defining the receiving groove and being screwed to the guide part; And
Wherein the support part is inserted in the insertion hole to insert the support part and moves in the first direction or in the second direction opposite to the first direction with the support part inserted into the insertion hole Moving parts;
And a pressing portion including a pressing portion,
And the pressing portion presses the sleeve engaged with the body portion in the first direction in accordance with the movement of the moving part in the first direction. The method of claim 9,
The pressing portion may further include an engaging part provided at a distal end side in the first direction at both ends of the support part and protruding in a direction perpendicular to the first direction,
Wherein the pressing portion is configured to press the sleeve bound to the body portion in the first direction as the moving portion strikes the engaging portion during movement in the first direction in a state where the supporting portion is screwed to the guide portion, The sleeve extraction device, made. The method of claim 10,
Wherein the engaging part has a thread formed on an inner circumferential surface corresponding to a thread formed on a distal end side of the support part in the first direction and is screwed to the support part and moves along the support part with its own rotation, The moving distance of the moving part is regulated. The method of claim 9,
Wherein the moving part has a rough outer peripheral surface for increasing frictional force.

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