KR101458973B1 - Steel wire support, Oil jack for tensioning steel wire, and Variable strut method of flexural member using oil jack - Google Patents

Abstract

The present invention relates to a steel wire support for use in tensioning a steel wire with a hydraulic jack at a central portion of the steel wire to induce a compressive force to the steel wire, a hydraulic jack for tensioning the steel wire, and a variable holding method using the steel wire.
The steel wire support according to the present invention relates to a steel wire support which is coupled to a lower portion of a central portion in a longitudinal direction of a slab to support a steel wire disposed in a longitudinal direction at a lower portion of the slab, A first support bar and a second support bar which are coupled to each other at a predetermined distance from the lower portion of the fixing plate so that the plurality of fixing holes are spaced apart from each other by a predetermined distance in the vertical direction; An acupressure plate coupled to the other end of the first support bar and the second support bar; And a second support bar provided between the first support bar and the second support bar, wherein both sides of the fixture of the first support bar and the corresponding fixation holes of the second support bar are coupled to each other to support the steel wire in the downward direction of the slab A steel wire support; . ≪ / RTI >
In the present invention, the hooks of the steel wire tension bars mounted on both sides of the piston are hooked to the center of the steel wire fixed to both ends of the flexure member, and a compressive force is applied to the flexible member by a simple structure and method of pulling the steel wire while applying pressure to the pressure- A certain reinforcing effect can be obtained.

Description

TECHNICAL FIELD [0001] The present invention relates to a flexible wire support for a steel wire support, a flexible jacket for tensioning steel wire, and a flexible member using an oil jack,

The present invention relates to a wire support for use in tensioning a steel wire with a hydraulic jack at a central portion of a bending member to induce a compressive force at a lower portion of the bending member, a hydraulic jack for tensioning the steel wire, and a variable holding method for a bending member using the same.

When a load is applied to the flexural members such as the bottom plate, the wall, or the beam, deflection occurs due to the deflection of the members.

At this time, if the support is supported on the convex side due to the bending of the bending member, there is an effect that the bending phenomenon is canceled by the operation load, and if the support is pushed by the hydraulic jack or the screw jack, have.

The support is intended to prevent sagging of the upper floor member (slab or beam) during construction or to prevent call-up of the wall of the retaining wall, and the position of receiving the compression force of the support is located on the lower floor in the case of the bottom member and on the opposite side in the case of the earth retaining wall It is mostly a wall.

However, when reinforcing a floor or wall with insufficient strength, the abovementioned support will interfere with the use of the structure. Accordingly, the applicant of the present invention has proposed a method for manufacturing a steel wire, which is a method of manufacturing a steel wire, And a post tensioning method using the same), and a method of reinforcing these members with a steel wire tension is used, and the method of FIG. 2 using these techniques is also used.

In addition, in recent years, Japanese Patent Laid-Open No. 10-1170956 (entitled " reinforcement structure for lifting a structure using a steel rod and a hydraulic system and method thereof ") disclosed in Fig. 3 has been proposed. There is also a reinforced construction site where the fixing plate is stretched.

1 to 3, since the both ends of the steel wire are located at a higher level than the intermediate support portion, the upward force of the intermediate support portion can contribute to the reinforcement effect due to the truss theory. However, since the value is included in the safety enhancing effect, the process of measuring the upward force is omitted at the time of tensing the steel wire with the hydraulic jack or the screw jack at the fixing stage. This is because the reinforcement purpose can be attained only by adding a steel wire or a steel bar to a portion where the tensile strength is insufficient in the flexible member.

The technique of Figs. 1 to 3 is applied to a case where there is no space that can be tensed by the hydraulic jack at the left and right fixing stages of the steel wire or the steel bar.

4 is a view showing a hydraulic jack used as a method of inducing a compressive force to a support between a support end and a flexural member, instead of directly tensioning a steel wire or a steel bar with a hydraulic jack at a fixing end or a support end.

However, in order to push the earth with a steel wire or a steel bar, the angle of the steel wire or the steel bar must be large in order to make the steel wire room. In reality, there is no free space (height) in the area to be reinforced. For example, in the case of pulling a bowstring, you can guess the basic principle that the bowstring angle increases as the angle of the bowstring increases. In FIG. 4, the maximum value at which the steel bar (M-BAR 22) at the center of the hydraulic machine can be pulled by the hydraulic machine is related to the value obtained by consuming the height of the central fusing plate. Since this value is too small, I can not expect it.

In other words, the upward force obtained when the technique of FIG. 4 is used is only a degree of pulling the steel rods tightly. This is because the holding rod takes up the majority of the height of the center fusing plate and another male thread is inserted into the coupler at the upper end of the steel rod at the center of the hydraulic unit in order to pull the coupler with the hydraulic jack.

In addition, since the technique of Fig. 4 is used by machining threads at both ends of a steel bar with a tensile material, it is inconvenient to measure a precise length at a construction site and to manufacture the steel sheet by a factory. The flexural members of existing architectural structures to be reinforced are easy to fit on site because they do not have standard specifications. In addition, the cost of attaching and detaching various obstacles such as existing ducts, sprinkler pipes, lights, and ceilings is added in order to insert steel rods that are not easily bent.

The present invention relates to a bending method using a hydraulic wire jack for a steel wire tension and a hydraulic jack for a simple operation, a simple structure and a reliable reinforcement effect of a bending member when the bending member is tensed by a hydraulic jack at the center of the bending member, And to provide a variable member holding method.

According to another aspect of the present invention, there is provided a steel wire support for supporting a steel wire disposed in a longitudinal direction at a lower portion of a slab in a longitudinal direction of a slab, plate; A first support bar and a second support bar which are coupled to each other at a predetermined distance from the lower portion of the fixing plate so that the plurality of fixing holes are spaced apart from each other by a predetermined distance in the vertical direction; A pressure plate coupled to the other end of the first support bar and the second support bar; And a second support bar provided between the first support bar and the second support bar, wherein both sides of the fixture of the first support bar and the corresponding fixation holes of the second support bar are coupled to each other to support the steel wire in the downward direction of the slab A steel wire support; The present invention provides a steel wire support, comprising:

According to another preferred embodiment of the present invention, there is provided a pair of steel wire supports coupled to both sides of a central portion in a longitudinal direction of a beam to support a steel wire disposed in a longitudinal direction on a beam portion, A first support bar formed by bending the outer side end of the fixing plate in the direction of the upper side of the beam side and fixed to the side of the beam, the plurality of fixing holes being spaced apart from each other by a predetermined distance in the vertical direction; A pressing plate protruding outward from the fixing plate; A second support bar extending from the other end of the pressing plate so as to be spaced apart from the first support bar by a predetermined distance and having a fixing hole at a position corresponding to the fixing hole of the first supporting bar; And a second support bar provided between the first support bar and the second support bar, wherein both sides of the fixture of the first support bar and the corresponding fixture of the second support bar are coupled to each other to support the steel wire in a downward direction A steel wire support; The present invention provides a steel wire support, comprising:

According to another preferred embodiment of the present invention, the steel wire support comprises a steel wire supporting roller which is provided between the first support bar and the second support bar and has at least one through hole penetrating both sides thereof and supports the steel wire downward; And a support bolt passing through any one of the plurality of fixing holes and the through hole to fix the steel wire supporting roller to the first supporting bar and the second supporting bar; The present invention provides a steel wire support, comprising:

According to another preferred embodiment of the present invention, there is provided a steel wire support, wherein the steel wire support rollers are formed with concave grooves through which steel wires are inserted.

According to another preferred embodiment of the present invention, a position fixing hole for fixing the position of the hydraulic jack is formed on the pressing plate.

According to another aspect of the present invention, there is provided a hydraulic jack for tensioning a steel wire, comprising: a hydraulic jack body having an open end; A piston which is provided so as to be able to move in and out through an opened end of the hydraulic jack body; An enlarged ring portion provided outside the end of the hydraulic jack body; And a wire tension bar having one end rotatably coupled to the locking projection and the other end formed with a hook for hooking a wire; The present invention provides a hydraulic jack for tensioning a wire.

According to another aspect of the present invention, there is provided a method of manufacturing a steel slab, comprising the steps of: (a) installing a steel wire support on a lower side of a slab longitudinal direction center; (b) disposing the steel wire so as to be positioned between the first support bar and the second support bar of the steel wire support, and fixing both ends of the steel wire to the beams located at both ends of the slab; (c) tensioning the steel wire in the steel wire support by using a hydraulic jack for tensioning the steel wire; (d) maintaining the tension of the steel wire by supporting the center portion of the steel wire with the steel wire support on the first support bar and the second support bar after the tension of the steel wire reaches an arbitrary size; And (e) removing the hydraulic jack for tensioning the steel wire. The present invention provides a variable holding method for a flexible member using a hydraulic jack.

According to another preferred embodiment of the present invention, there is provided a method of manufacturing a steel wire, comprising the steps of: (a) (b) disposing the steel wire so as to be positioned between the first support bar and the second support bar of the steel wire support, and fixing both ends of the steel wire to the beam located at both ends of the beam; (c) tensioning the steel wire in the steel wire support by using a hydraulic jack for tensioning the steel wire; (d) maintaining the tension of the steel wire by supporting the center portion of the steel wire with the steel wire support on the first support bar and the second support bar after the tension of the steel wire reaches an arbitrary size; And (e) removing the hydraulic jack for tensioning the steel wire. The present invention provides a variable holding method for a flexible member using a hydraulic jack.

According to another preferred embodiment of the present invention, in the step (c), the hydraulic jack for tensioning the steel wire comprises a hydraulic jack body having an open end; A piston which is provided to be able to be input and output through an open end of the hydraulic jack body; An enlarged ring portion provided outside the end of the hydraulic jack body; A pair of locking protrusions protruding from both sides of the enlarged ring portion; And a wire tension bar having one end rotatably coupled to the locking projection and the other end formed with a hook for hooking a wire; The piston outer side end portion is brought into close contact with the pressure plate of the steel wire support and the hook of the steel wire tension bar is hooked to the steel wire 30 and the hydraulic pressure is applied to advance the piston 120 to pull the steel wire 30 downward The present invention provides a variable holding method for a flexible member using a hydraulic jack.

The present invention has the following effects.

First, since the steel wire is tensed by the hydraulic jack at the central portion of the bending member, it is possible to omit the work of tensing the steel wire to the hydraulic jack at the end of the steel wire having poor hydraulic tension working conditions.

Second, since the upward load can be accurately measured by the gauge of the hydraulic jack that applies compressive force to the steel wire support, reinforcement effect can be confirmed.

Third, by inserting a steel wire through a hole in a beam web instead of attaching a fixing end to both ends of the steel wire, it is possible to reinforce a plurality of flexible members such as a continuous beam or a continuous slab, So that it can be reinforced.

Fourthly, since the level of the steel wire supporting roller capable of pulling the steel wire by the hydraulic jack for tensioning of the present invention can be adjusted, the upward force of the steel wire guide can be subdivided.

In this case, when the compression force is induced in the flexible member by tensioning the steel wire with the hydraulic jack at the central portion of the flexible member, the hook of the steel wire tension bar mounted on both sides of the piston is hooked to the center portion of the steel wire fixed to both ends of the flexible member, It is possible to obtain a reinforcing effect by applying compressive force to the flexible member by a simple structure and method of pulling the steel wire while applying pressure to the plate.

1 is a front view showing a method of reinforcing hydraulic tension of a steel wire by a conventional fixing device and a connecting device.
2 is a front view showing a method of reinforcing hydraulic tension of a steel wire by a conventional fixing device and saddle.
3 is a front view showing a method of reinforcing a thread tension of a conventional steel wire.
4 is a front view showing a method of reinforcing hydraulic tension of a conventional steel wire.
5 is a perspective view illustrating a steel wire support coupled to the slab of the present invention.
FIG. 6 is a perspective view showing a steel wire support coupled to the beam of the present invention. FIG.
7 (a) is a perspective view of a steel wire support used in the present invention, and FIG. 7 (b) is a side view of a steel wire support roller.
Fig. 8 is a perspective view showing a hydraulic jack for tensional tension according to the present invention. Fig.
Fig. 9 is a front view showing the coupling relation between the hydraulic jack for tensioning the steel wire and the steel wire retainer according to the present invention.
10 is a perspective view showing a step-by-step process of the embodiment by the method of varying the flexural member using the hydraulic jack for tensional tension according to the present invention.
FIG. 11 is a perspective view showing a stepwise process of another embodiment by a flexible holding member method using a hydraulic jack for supporting a steel wire according to the present invention. FIG.
12 is a front view showing a steel wire to which an end portion of the beam located at the end of the slab of the present invention is fixed.
13 is a perspective view showing a steel wire fixed to beams located at both ends of a slab of the present invention.
FIG. 14 is a front view showing a tensioned steel wire in a lower portion of a slab under a plurality of spans by the method of variable member holding method using a hydraulic jack for tie tension according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

In the present invention, a 7-stranded steel wire is used as a tensile material instead of a steel wire as a tensile material, so that it can be easily fixed to the steel wire cone 31 while omitting the end threading. The steel wire 31 is transported to a construction site in a roll state, can be released by loosening to a required length, and is easily bent, so that it can be easily inserted into a desired position in a narrow space.

Since the steel wire is more flexible than the steel bar, unlike the variable strut shown in FIG. 4, there is an advantage that the steel wire is not cut at the bent position. However, in order to apply the above advantage to the present invention, the steel wire is drawn between the first support bars 42a and 52a and the second support bars 42b and 52b of the steel wire supports 40 and 50, A method of fixing to the steel wire supports 40 and 50 is used.

5 is a perspective view illustrating a steel wire support coupled to the slab of the present invention.

5, the steel wire support 40 of the present invention is coupled to the lower portion of the longitudinal center of the slab 10 in order to support the steel wire 30 disposed in the longitudinal direction below the slab 10, A fixing plate 41 attached to a lower portion of the slab 10; And a plurality of fixing holes 421 are formed in the lower portion of the fixing plate 41 so as to be spaced apart from each other by a predetermined distance, 1 support bar 42a and second support bar 42b; A pressing plate 43 coupled to the other end of the first supporting bar 42a and the second supporting bar 42b; And a second support bar 42b which is provided between the first support bar 42a and the second support bar 42b and which is provided between the fixing hole 421 of the first support bar 42a and the corresponding fixing hole 42b of the second support bar 42b, A steel wire support body 60 which is coupled to either one of the pair of steel wire support members 421 to support the steel wire 30 in the downward direction of the slab 10; . ≪ / RTI >

The steel wire support 40 is installed under the center of the slab 10 as a variable support for preventing or recovering sagging of the slab.

The fixing plate 41 of the steel wire support 40 is fixed to the lower portion of the slab by the anchor bolts 45. At this time, the fixing plate 41 is arranged in a rectangular shape so that short sides are aligned with the steel wire direction.

Support ribs 44 are attached to both sides of the positions where the first support bar 42a and the second support bar 42b are joined to the fixing plate 41 so that the first support bar 42a and the second support bar 42b, It is preferable to reinforce the second end portion 42b.

6 is a perspective view showing a steel wire support 50 according to another embodiment of the present invention.

6, the steel wire support 50 according to the embodiment of the present invention is provided on both sides of the longitudinal center of the beam 20 in order to support the steel wire 30 arranged in the longitudinal direction on the side of the beam 20 A fixed plate 51 attached to the lower portion of the beam 20; A plurality of fixing holes 521 are formed in the outer side of the fixing plate 51 so as to be bent in the upper direction of the side surface of the beam 20 and fixed to the side surface of the beam 20, Bar 52a; A pressing plate 53 protruding from the fixing plate 51 to the outside of the beam 20; A fixing hole 521 is formed at a position corresponding to the fixing hole 521 of the first supporting bar 52a and is extended from the other end of the pressing plate 53 at a predetermined distance from the first supporting bar 52a. A second support bar 52b formed on the second support bar 52a; And a second supporting bar 52b which is provided between the first supporting bar 52a and the second supporting bar 52b and which is fixed to the fixing hole 521 of the first supporting bar 52a and the corresponding fixing hole 52b of the second supporting bar 52b, A steel wire support body 60 which is coupled to either one of the pair of steel wire support members 521 to support the steel wire 30 in the downward direction of the beam 20; . ≪ / RTI >

The steel wire supports 50 according to the other embodiment are provided on both sides of the central side of the beam 20 as a pair of variable supports for preventing or recovering the beams.

The fixing plate 51 and the first supporting bar 52a are bent in an inverted U-shape so as to be fixed to the lower portion of the fixing plate 51 and the first supporting bar 52a to be fixed to the beam side with an anchor bolts 55 do.

The second support bar 52b is spaced apart from the first support bar 52a by a predetermined distance. The lower end of the second support bar 52b is fixedly coupled to a pressing plate 53 protruding from the outer end of the fixing plate 51, Is fixed to the first support bar (52a) by the support plate (54).

The steel wire support 60 is selectively coupled to any one of the fixing holes 421 of the first supporting bars 42a and 52a and the second supporting bars 42b and 52b according to the height of the steel wire 30, 30).

7, the steel wire support 60 includes a steel wire support roller 62 provided between the first support bars 42a and 52a and the second support bars 42b and 52b, 62 for fixing the first and second support bars 42a, 52a to the first support bars 42a, 52a and the second support bars 42b, 52b.

A through hole 621 passing through both sides is formed in the steel wire supporting roller 62 so that the supporting bolt 61 passes through any one of the through hole and the fixed hole so that the first supporting bars 42a and 52a and the second supporting bars 42b And 52b, respectively.

The through hole 621 is formed at the center of the steel wire supporting roller 62, but may be eccentrically formed outside the central portion to fix the steel wire at various heights.

The support bolt 61 is fixed by a nut in the case of the slab support member 40 and the support bolt 61 is formed on the inner side of the fixing hole of the first support bar 52a in the case of the reinforcement line support 50. [ It is fixed to the female thread.

The outer diameter of the steel wire supporting roller 62 is preferably larger than the width of the first supporting bars 42a and 52a and the second supporting bars 42b and 52b, A concave groove 622 having a semicircular shape is formed.

 The pressing plates 43 and 53 are configured to closely contact the ends of the piston 120 of the hydraulic jack 100 for use in tensioning the steel wire to the lower portion of the slab 10 or the beam 20. [

The pressing plates 43 and 53 are formed with position fixing holes 431 and 531 for fixing the fixing protrusion 130 provided at the outer end of the piston to be described later to fix the position of the hydraulic jack for tensioning the steel wire.

Hereinafter, the hydraulic jack 100 for a torsional tension will be described in detail.

8, the hydraulic jack 100 according to the present invention is coupled to a steel wire support 40 or 50 coupled to a lower portion of a slab 10 or a beam 20, A hydraulic jack body 110 whose one end is opened; A piston (120) provided to be able to be input and output through an open end of the hydraulic jack body (110); An enlarged ring portion 140 provided outside the end of the hydraulic jack body 110; A pair of locking protrusions 150 protruding from both sides of the enlarged ring portion 140; A wire tension bar 160 having one end rotatably coupled to the hooking protrusion 150 and a hook H for hooking a steel wire at the other end; . ≪ / RTI >

The ends of the pistons of the hydraulic jack 100 for tightening the straps are brought into close contact with the lower portions of the pressing plates 43 and 53 under the steel wire supports 40 and 50 and the hook H of the steel wire tension bar 160 is caught by the steel wire.

9, the enlarged ring portion 140 is coupled to the hydraulic jack body 110 and moves together with the hydraulic jack body 110, and the steel wire tension bar 160 is engaged with the engaging protrusion (not shown) of the enlarged ring portion 140 150 so as to be free to rotate, so that it is easy to engage with the steel wire 30. [

The outer appearance of the enlarged ring portion is shown as a square in the drawing, but it is not limited to other shapes such as a circular shape.

When the hydraulic pressure is applied to the hydraulic jack body 110, the piston 120 moves upward to press the pressure plates 43 and 53, and the enlarged ring portion 140, which is relatively pushed by the hydraulic jack body and coupled to the hydraulic jack body, So that the steel wire tension bar 160 is pulled down and the steel wire 30 is tensioned downward.

A fixed protrusion 130 is provided at an outer end of the piston 120. The fixed protrusion 130 is inserted into and fixed to the position fixing holes 431 and 531 of the pressing plates 43 and 53 of the steel wire supports 40 and 50, It prevents the tension hydraulic jack from escaping.

Hereinafter, a variable holding method for applying compressive force to the lower portion of the flexural member using the hydraulic jack will be described in detail.

As shown in FIG. 10, the method of varying the flexural member using the hydraulic jack according to the present invention comprises the steps of: (a) installing a steel wire support 40 below the center of the slab 10 in the longitudinal direction; (b) The steel wire 30 is disposed so as to be positioned between the first support bar 42a and the second support bar 42b of the steel wire support 40 and both ends of the steel wire 30 are connected to both ends of the slab 10 To a beam (21) located at the bottom of the beam (21); (c) tensing down the steel wire 30 in the steel wire support 40 using the hydraulic jack 100 for tensioning the steel wire; (d) After the tension of the steel wire 30 reaches an arbitrary size, the central portion of the steel wire 30 is supported by the first support bar 42a and the second support bar 42b by the steel wire support 60, 30); And (e) removing the hydraulic jack (100). And a control unit.

In step (a), the steel wire support 40 fixes the fixing plate 41 to the lower portion of the slab with the anchor bolts 45. [

12 and 13, the steel wire 30 is disposed between the first support bar 42a and the second support bar 42b in the step (b), and the beam supporting the both ends of the slab 10 And the steel wire cone 31 is provided on the side of the steel wire hole so that the steel wire 30 is stretched. Both ends are fixed.

12 and the like, the beam 21 supporting the both ends of the slab is shown as a steel frame, but it may be concrete.

14 is a front view showing the installation of a tensioned steel wire at the bottom of the slab when there are several spans.

As shown in Fig. 14, in the case where there are a plurality of spans, steel wire holes 211 are respectively formed in the upper end portions of the webs of the beams 21 supporting the both ends of the slabs 10, Both ends of the steel wire 30 are fixed at each span by the steel wire cone 31 so that the steel wire cone 31 is provided on both sides so that the steel wire 30 is expanded. However, the beam 21 located at the outermost end may be provided with the wire cone 31 only on the outer side of the beam web.

in step (c), the hydraulic jack 100 for tensioning the steel wire is installed so as to be in close contact with the pressure plate 43 of the steel wire support 40, the hydraulic jack 100 is connected to the steel wire 30, The steel wire 30 is pulled to the lower portion of the slab 10 to be strained.

Specifically, the hydraulic jack 100 for tightening the tie comprises the hydraulic jack body 110, the piston 120, the enlarged ring portion 140, the locking protrusion 150, and the tie tension bar 160, The outer end of the piston 120 is brought into close contact with the pressing plate 43 of the steel wire support 40 and the hook H of the steel wire tension bar 160 is connected to the steel wire 30, Thereby pulling the steel wire 30 downward.

 At this time, measure the tension of the steel wire by measuring the force of pulling the steel wire with an oil pressure gauge.

the operation of the hydraulic jack 100 is stopped and the steel wire supporting roller 62 is moved to the first supporting bar 42a in accordance with the height of the steel wire 30 The support bolts 61 disposed between the second support bars 42b are inserted into the fixing holes 421 of the first support bars 42a and the second support bars 42b and the through holes 621 and fastened with a nut. Whether the support bolt is coupled to the central through hole of the steel wire supporting roller 62 or to the eccentric through hole is decided according to the height of the steel wire 30.

if the height of the steel wire 30 is fixed by the steel wire support 60 and the tension force is maintained in step (e), the hydraulic jack 100 is released from the hydraulic jack 100 and the hydraulic jack 100 is removed from the steel wire support 40 do.

11, the method of variable lengthwise holding a flexible member using the hydraulic jack according to the present invention comprises the steps of: (a) installing a steel wire support 50 on the side of the longitudinal center of the beam 20; ; (b) The steel wire 30 is disposed so as to be positioned between the first support bar 52a and the second support bar 52b of the steel wire support 50, and the both ends of the steel wire 30 are positioned at both ends of the beam 20 ); (c) tensing down the steel wire 30 from the steel wire support 50 using a hydraulic jack 100 for tensioning the steel wire; (d) After the tension of the steel wire 30 reaches an arbitrary size, the central portion of the steel wire 30 is supported by the first support bar 52a and the second support bar 52b by the steel wire support 60, 30); And (e) removing the hydraulic jack (100). And a control unit.

the steel wire support 50 fixes the fixing plate 41 and the first supporting bar 52a to the lower portion and the side portion of the beam 20 with the anchor bolts 45 respectively, So that eccentricity does not act on the beam 20 when the steel wire 30 is tensed.

The steps (b) to (e) are the same as those of the variable holding method of the slab, and therefore the description thereof will be omitted.

10: slab 20, 21: beam
30: Steel wire 40, 50: Steel wire
41, 51: fixing plate 42a, 52a: first supporting bar
42b, 52b: second support bars 421, 521:
43, 53: pressure plate 431, 531: position fixing hole
44: support ribs 45, 55: anchor bolts
60: Steel wire support 61: Support bolt
62: Steel wire supporting roller 621: Through hole
622: concave groove 100: hydraulic jack
110: Hydraulic jack body 120: Piston
130: fixed protrusion 140: enlarged ring portion
150: Stuck frame 160: Steel wire tension bar
H: Hook

Claims (9)

The present invention relates to a steel wire support (40) coupled to a lower portion of a slab (10) in a longitudinal direction to support a steel wire (30) disposed in a longitudinal direction below the slab (10)
A fixing plate 41 attached to a lower portion of the slab 10;
And a plurality of fixing holes 421 are formed in the lower portion of the fixing plate 41 so as to be spaced apart from each other by a predetermined distance, 1 support bar 42a and second support bar 42b;
A pressing plate 43 coupled to the other end of the first supporting bar 42a and the second supporting bar 42b; And
The first support bar 42a and the second support bar 42b are provided between the first support bar 42a and the second support bar 42b, 421) to support the steel wire (30) in the downward direction of the slab (10); Wherein the wire-wound support is made of a steel wire.
The present invention relates to a pair of steel wire supports (50) coupled to both sides of a longitudinal center of a beam (20) in order to support a steel wire (30)
A fixing plate 51 attached to a lower portion of the beam 20;
A plurality of fixing holes 521 are formed in the outer side of the fixing plate 51 so as to be bent in the upper direction of the side surface of the beam 20 and fixed to the side surface of the beam 20, Bar 52a;
A pressing plate 53 protruding from the fixing plate 51 to the outside of the beam 20;
A fixing hole 521 is formed at a position corresponding to the fixing hole 521 of the first supporting bar 52a and is extended from the other end of the pressing plate 53 at a predetermined distance from the first supporting bar 52a. A second support bar 52b formed on the second support bar 52a; And
The first support bar 52a and the second support bar 52b are provided between the first support bar 52a and the second support bar 52b, 521) to support the steel wire (30) in the downward direction of the beam (20); Wherein the wire-wound support is made of a steel wire.
3. The method according to claim 1 or 2,
The steel wire support (60)
At least one through hole 621 is formed between the first support bars 42a and 52a and the second support bars 42b and 52b and extends through both sides of the first support bars 42a and 52a, Roller 62; And
The steel wire supporting roller 62 is inserted into any one of the plurality of fixing holes 421 and 521 and the through hole 621 so that the steel wire supporting roller 62 is inserted between the first supporting bars 42a and 52a and the second supporting bars 42b , 52b, respectively; Wherein the wire-wound support is made of a steel wire.
The method of claim 3,
Wherein a concave groove (622) for inserting a steel wire (30) is formed on an outer circumferential surface of the steel wire supporting roller (62).
3. The method according to claim 1 or 2,
Wherein the pressing plates (43, 53) are formed with position fixing holes (431, 531) for fixing the position of the hydraulic jack.
The present invention relates to a hydraulic jack for tensioning a steel wire,
A hydraulic jack body 110 which is opened at one end;
A piston (120) provided to be able to be input and output through an open end of the hydraulic jack body (110);
An enlarged ring portion 140 provided outside the end of the hydraulic jack body 110;
A pair of locking protrusions 150 protruding from both sides of the enlarged ring portion 140; And
A wire tension bar 160 having one end rotatably coupled to the locking projection 150 and a hook H for hooking a steel wire on the other end; (100). ≪ / RTI >
(a) installing the steel wire support (40) of claim 1 below the center portion in the longitudinal direction of the slab (10);
(b) The steel wire 30 is disposed so as to be positioned between the first support bar 42a and the second support bar 42b of the steel wire support 40 and both ends of the steel wire 30 are connected to both ends of the slab 10 To a beam (21) located at the bottom of the beam (21);
(c) tensioning the steel wire 30 in the steel wire support 40 downward by using the steel wire long residual hydraulic jack 100;
(d) After the tension of the steel wire 30 reaches an arbitrary size, the central portion of the steel wire 30 is supported by the first support bar 42a and the second support bar 42b by the steel wire support 60, 30); And
(e) removing the hydraulic jack (100); Wherein the variable holding means comprises a plurality of hydraulic jacks.
(a) installing the steel wire support (50) of claim 2 on the side of the longitudinally middle portion of the beam (20);
(b) The steel wire 30 is disposed so as to be positioned between the first support bar 52a and the second support bar 52b of the steel wire support 50, and the both ends of the steel wire 30 are positioned at both ends of the beam 20 );
(c) tensing down the steel wire 30 from the steel wire support 50 using a hydraulic jack 100 for tensioning the steel wire;
(d) After the tension of the steel wire 30 reaches an arbitrary size, the central portion of the steel wire 30 is supported by the first support bar 52a and the second support bar 52b by the steel wire support 60, 30); And
(e) removing the hydraulic jack (100); Wherein the variable holding means comprises a plurality of hydraulic jacks.
9. The method according to claim 7 or 8,
In the step (c), the hydraulic jack for tensioning the steel wire 100
A hydraulic jack body 110 which is opened at one end;
A piston 120 provided to be able to be input and output through an open end of the hydraulic jack body 110;
An enlarged ring portion 140 provided outside the end of the hydraulic jack body 110;
A pair of locking protrusions 150 protruding from both sides of the enlarged ring portion 140; And
A wire tension bar 160 having one end rotatably coupled to the locking protrusion 150 and a hook H for hooking the wire 30 at the other end; Lt; / RTI >
The outer end of the piston 120 is brought into close contact with the pressing plates 43 and 53 of the steel wire supports 40 and 50 and the hook H of the steel wire tension bar 160 is fastened to the steel wire 30, (120) is advanced to pull the steel wire (30) downward.

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