KR100349985B1 - Methods and tools for Constructing Reinforcement of Precast Concrete Facing Panel - Google Patents

Abstract

The present invention relates to a method for constructing reinforcement retaining wall retaining wall support and its construction mechanism. The continuous band-shaped reinforcing material continuously connects the reinforcement with a pin to a plurality of connectors protruding to the inner side of the retaining wall wall, and continuously connects the retaining wall in a zigzag manner. In the method of supporting the retaining wall by reinforcing the backfill material on the reinforcement in the rear portion, the two bite mechanisms so that the belt-shaped reinforcement (10) caught on both sides of the adjacent connector 30 of the retaining wall wall (20) hangs on the connector without sagging ( 100) in the state fixed at both sides of the belt-shaped reinforcement (10) in the rear end of the middle portion of the pull using the pull mechanism 200 to pull both sides to a uniform tension and fixed with a temporary fixing pin (60), the two After dismantling one of the biting mechanisms, fix the reinforcement on the side of the next connector that needs to be pulled again. By repeating the reinforcing material pulling operation, it is possible to prevent the occurrence of loosening at the portion where the reinforcing material is folded by the biting mechanism, and to pull the pulling of the reinforcing material by the pulling mechanism quickly and uniformly evenly. In order to improve the bearing capacity of retaining wall, it provides the method of constructing the reinforcement with acupressure anchor at the rear end of the reinforcement, and the biting and pulling mechanism suitable for the construction.

Description

Construction method of reinforcement for supporting retaining wall of prefabricated reinforcement structure and its construction {Methods and tools for Constructing Reinforcement of Precast Concrete Facing Panel}

The present invention relates to a method for constructing a reinforcement retaining wall for prefabricated reinforcement soil and a construction mechanism thereof, and a newly developed pull mechanism and a bite mechanism by breaking the pulling operation of the continuous band-shaped reinforcement from the primitive method previously pulled by many people. It can be used as a group and can be pulled out easily and effortlessly by a uniform force without any effort alone.The soil given at the site has a small friction angle, so it is not suitable as a backfill material for reinforcement soils, or it is suitable for construction sites with short reinforcement soil distances due to obstacles. By installing the anchor of the acupressure method on the rear end, the bearing resistance of the retaining wall is improved, so that the prefabricated reinforced soil retaining wall having a more solid structure can be constructed.

1 is a perspective view showing a method of constructing a prefabricated reinforcement retaining wall construction to build a conventional vertical wall surface, which is a roll of a reinforcing material (1) coated with a plurality of polyester fibers coated with polyethylene length of about 100 ~ 150 meters (roll) When the installation work of the reinforcement (1) was to be loosely bound in a zigzag form with the pin (4) in series with the connector (3) attached to the reinforcement retaining wall wall (2) in front of the reinforcement body, the reinforcement tip and Temporary loosening of the rear fold is increased, and temporary bars (5) made of reinforcing bars in a straight line parallel to the retaining wall wall (2) in front of the reinforcement soil in order to relieve the loosening of this part are temporary over 45 centimeters. In the state in which the fixing pin (6) was fixed and installed in the reinforcement body, several people on one side had to repeat the work of holding the reinforcement (1) by hand and pulling it.

On the other hand, in the above-described conventional construction method, the reinforcement itself has a certain hardness, so the looseness of the folded portion of the reinforcement relative to the size of the looseness generated in the loosely folded portions of the front and rear and the reinforcement itself spread on the reinforcement soil is damaged. The extent to which the reinforcement can be wrapped and pulled out is functionally related to the width and thickness of the reinforcement, so it is impossible to increase the thickness and width of the reinforcement beyond the size that can be wrapped and pulled by hand by applying the reinforcement. Increasing the thickness and quantity of the internal fibrous polyester, which determines the tensile strength of the reinforcement, has been limited.In addition, it protects the fibrous inside of the reinforcement and prevents corrosion by various biochemical infringements and forms an external appearance. Thickness of Polyethylene, a Surface Coating Material that Generates Friction And the increase in width and the molding in the free form is also subject to certain restrictions.

In addition, the conventional reinforcement construction method has a problem that can only be pulled in one direction or one place to zigzag the reinforcement when installing the reinforcement, as well as to the pure manpower during the pulling operation to smooth the loosening of the reinforcement connected to each retaining wall Excessive fatigue of workers, excessive labor cost and loosening after pulling work due to dependence on pulling, and also a problem of failing to pull evenly by applying a constant tension for each reinforcement, which causes deformation and partial warpage of the retaining wall after construction. There was this.

On the other hand, as a means to spread the loosening of the reinforcement material, pit the middle part of the reinforcement soil and lay the reinforcement material on it, and then pour the soil on the excavated reinforcement soil and put it in the puddle in which the reinforcement is pitted by the weight of the soil. It is also used a method that allows the stretched reinforcement to be pulled tightly, but this requires a digging of the puddle in the reinforcement soil, there was a problem in digging up the reinforcement soil reinforcement, the construction of the reinforcement at each site is not tensioned uniformly Later, the lateral displacement of the retaining wall wall had a problem that occurs.

In addition, the existing reinforcement had to support the retaining wall wall only depending on the frictional force with the reinforcement soil. Therefore, the back length had to be lengthened to show sufficient support force, and the material of the reinforcement soil used only sandy soil with high friction angle. Logistics costs required for transportation were increased. If obstacles such as rocks or concrete structures exist in the reinforcement soil compaction zone, the length of the reinforcement can be shortened unless it is removed. In order to improve this, when the method of fixing the reinforcement by fixing the set anchor to the rock, the structural elasticity required for the construction of the prefabricated reinforcement retaining wall is lowered, and the impact absorption is lowered. Unexpected destruction and collapse by external force There was a problem in that the durability or impact absorption of the prefabricated reinforced soil retaining wall back.

The present invention has been devised in view of the above-mentioned conventional problems, and an object of the present invention is to avoid the pulling operation of the reinforcement retaining wall prefabricated reinforcement in a manner that relies on the pure manpower as described above, the angle of the reinforcement more easily and uniformly The tension of the reinforcement material including the folded part is pulled effectively and tightly to obtain a uniform tensile force by using a pulling mechanism, and then the reinforcement soil is compacted to minimize the transverse deformation of the reinforcement soil retaining wall to enable stable construction. The aim is to reduce labor costs and to provide a simple and quick construction method.

In addition, the present invention is to provide a method of constructing a reinforcement having a more rigid prefabricated retaining wall structure by allowing the reinforcement material to generate a bearing resistance of the acupressure method in addition to the support force by the frictional force with the ground, and also the use range of the reinforcement soil backfill material In addition to sandy soils with a large friction angle, viscous soils can be easily used in construction sites, and a suitable tool useful for such construction methods, that is, a pulling mechanism and a reinforcement material that can pull the reinforcement easily and uniformly to provide a uniform tensile force. It provides a bite mechanism for straightening and fixing the folded portion of the reinforcement tip when pulling.

In addition, the present invention, using a manual anchor of acupressure method that can be installed on the rear end of the reinforcement with the friction between the reinforcement and the reinforcement body to increase the bearing resistance of the retaining wall, obstacles such as rocks or concrete structures exist in the reinforcement compaction zone In this case, it is to provide a method capable of effectively retaining wall construction so that it is more stable and there is no deformation.

In order to achieve the above object, the present invention uses a continuous band-shaped reinforcement to hang the band-shaped reinforcement with pins to the multiple connectors attached to the inner surface of the retaining wall wall, and connects them continuously in a zigzag manner. In the method for supporting the dodging retaining wall, the rear end of the middle part of the belt-shaped reinforcement fixed at both sides is fixed directly with two bite mechanisms fixed to each other so that the belt-shaped reinforcing members caught at both sides of the adjacent connector of the retaining wall wall do not hang. Or indirectly pulled by the pull mechanism to fix it with a temporary fixing pin, dismantling one of the two bite mechanisms and hooked to the next connector side where the pull operation is required to bite and secure the reinforcing material, then move the pull mechanism to the next Reinforcement by bite mechanism by repeating pulling reinforcement The present invention provides a method of constructing a reinforcement retaining wall of a prefabricated reinforcement earth retaining wall which prevents the occurrence of loosening at the portion where the ash is folded and pulls the reinforcing material by the pulling mechanism quickly and evenly with uniform tensile force.

The biting mechanism used in the construction method of the present invention is such that the pins for holding the reinforcement coupled to the inside of the connector attached to the retaining wall are pushed to the rear of the connector and at the same time, the reinforcement is able to adhere to the outside of the pin. This is a plier-type mechanism designed to prevent loosening of the reinforcement in the pliers, which is a plier upper and lower jaw (plier) that can pull the pin and the reinforcement in close contact without being disturbed by the connector attached to the retaining wall. jaw) structure.

In addition, the pull mechanism used in the construction method of the present invention is provided with a tension gauge so that the uniform reinforcement can be pulled with a uniform tensile force, both ends of the rear end in the state fixed to the connector of the retaining wall by the biting mechanism The catching part of the front end of the biting mechanism is made to be pulled so as to be pulled out, and a resistance plate bent forward and downward is formed on the scaffold to prevent the pulling mechanism from being pulled out when pulling the reinforcing material.

In addition, the pull mechanism according to another embodiment of the present invention can be hooked to the anchor in the state in which the anchor is mounted on the rear end of the reinforcement, and the hooking portion of the front end of the bite mechanism can be fixed to the anchor to fix the pulled anchor with a temporary fixing pin. Manufactured in a structure that can be.

According to another construction method of the present invention, a construction site having a short reinforcement area due to a location where the front and rear widths of the reinforcement soils, that is, a place where the reinforcement area on the rear surface of the retaining wall is insufficient, for example, an obstacle that is difficult to remove such as a rock or a concrete box, When the clay is used as the backfill material of reinforcement soil, it is pulled by the pulling mechanism with a separate support anchor inserted at the rear end of the reinforcement material and fixed with a temporary fixing pin to be embedded in the reinforcement soil body. Achieve bearing resistance of acupressure method, so that it has high bearing resistance despite the use of viscous soil with short reinforcement area or small friction angle, so that the economical efficiency and stability of retaining wall construction can be achieved.

1 is a perspective view showing a band-shaped reinforcement construction method of the conventional prefabricated reinforcement retaining wall,

Figure 2 is a perspective view showing a reinforcing material construction method according to a first embodiment of the present invention,

Figure 3a is a perspective view showing a bite state of the bite mechanism used in the construction method of Figure 2,

3B is a side view of FIG. 3A,

Figure 4a is a perspective view of the reinforcing material pulling mechanism commonly used in the present invention,

Figure 4b is a bottom view showing the engaging portion of the tip of the reinforcement pull mechanism shown in Figure 4a,

5 is a plan view of the reinforcing material construction method shown in Figure 2, a state that is carried out at the same time on both sides of the construction site so as to quickly pull the reinforcement material,

Figure 6a is a cross-sectional view when using a large friction angle sandy soil as a backfill material,

Figure 6b is a cross-sectional view of the case of using a viscous soil having a small friction angle as a backfill material,

7 is a perspective view showing a reinforcing material construction method according to a second embodiment of the present invention;

Figure 7a is a perspective view of the rear end of the reinforcing material, showing a modification of the embodiment shown in FIG.

8 is a perspective view of the reinforcing material pulling mechanism used in the construction method shown in FIG.

9 is a cross-sectional view of a construction state combining the embodiments of FIGS. 2 and 7.

* Explanation of symbols for main parts of the drawings

10: reinforcement 12: rear end

20: retaining wall wall 30: connector

40: pin 50: reinforcement soil backfill

60: temporary fixing pin 70: fixed bar

90 anchor 92 pinhole

95: pin 100: bite mechanism

110: upper jaw 120: lower jaw

200: pulling mechanism 210: locking part

220: scaffold 230: tension meter

Hereinafter, preferred embodiments of the reinforcing material construction method and the mechanisms suitable for the construction method according to the present invention will be described in detail with the accompanying drawings.

Figure 2 is a perspective view schematically showing a reinforcing material construction method according to a first embodiment of the present invention, Figure 3a is a perspective view of the reinforcing material bite mechanism according to the present invention, Figure 3b is a side view of the reinforcing material bite mechanism according to the present invention 4A and 4B show a perspective view of a pulling mechanism suitable for use in the first embodiment, and a bottom surface of the locking portion.

In the exemplary embodiment of the present invention, as shown in the drawings, the belt-shaped reinforcement 10 is hung in a zigzag manner by connecting the plurality of connectors 30 protruding to the inner surface of the retaining wall wall 20 to the pins 40. In the method of supporting the retaining wall wall 20 by stiffening the reinforcement soil backfill material 50 at the rear of the retaining wall wall 20, the band-shaped reinforcement 10 caught on both sides of the adjacent connector 30 at the rear of the retaining wall wall 20 is provided. The anchor 90 is attached to the rear end 12 of the middle portion of the strip-shaped reinforcement 10 fixed to the biting mechanism 100 in a state where both sides are fixed by the two biting mechanisms 100 so as to be caught by the connector 30 without sagging. In the state where the reinforcing bars were hanged with the pins 95 cut to a certain length, the anchor 90 was pulled by the pulling mechanism 200 and fixed with a temporary fixing pin 60, and one of the two gripping mechanisms 100 was used. To dismantle and walk on the side of the next connector 30, which is required to pull it again, the reinforcing material 10 After the fixing, the pulling mechanism 200 is moved to repeat the reinforcing material pulling operation, so that the loosening occurs at the portion where the reinforcing material 10 is folded by the biting mechanism 100, that is, the front and rear ends. It is characterized by preventing and pulling the reinforcing material by the pulling mechanism 200 quickly and evenly with a uniform tensile force alone.

In the conventional construction method was to work while releasing the reinforcing material wound in a roll state, as shown in Figure 2 in the reinforcing material construction method of the present invention, as well as the conventional reinforcing material of the present patent applicant 99-99 By using the improved reinforcement of No. 17317, the reinforcement is folded to a certain length and the folded part is inserted into the perforated hole at regular intervals along the longitudinal direction in the middle part to maintain the folded state. There are also advantages to doing this.

In addition, in the reinforcement construction method of the present invention in the reinforcement 10 of the pulled portion is completed by placing the reinforcement soil backfill material by injecting the temporary fixing pin 60 in the reinforcement soil (50) at a predetermined interval in the hole. The reinforcing material 10 can be prevented from being lifted or loosened again.

As shown in Figure 3 and Figure 3a, the biting mechanism 100 used in the construction method of the present invention is a pin that hangs the reinforcing material 10 coupled to the inner side of the connector 30 attached to the retaining wall wall 20 ( The pliers are manufactured so that the reinforcing material 10 is in close contact with the outer side of the pin 40 and the loosening of the reinforcing material does not occur in this part while maintaining the state in which the 40 is pushed to the rear of the connector 30. As a mechanism of this type, the biting mechanism 100 is a plier which can draw the pin 40 and the reinforcement 10 in close contact and pull it backward without being disturbed by both side connectors 30 attached to the retaining wall wall 20. The upper and lower jaw (110, 120) structure is characterized.

That is, the upper jaw 110 is formed so that both ends are short so as not to catch the connector, and the middle portion extends forward to be inserted into the upper inside of the connector 30, that is, iron (,) shape, the lower jaw 120 Is an opposite shape to the upper jaw (110), that is, both ends are formed to be in close contact with the rear outer side of the connector 30, the middle portion of the yaw shape in the form that the reinforcement (10) can be pulled back Consisting of, the upper and lower jaw (110, 120) is bent inward to pull the pin 40 and made of a form that can be in close contact with the outside of the connector 30, the screw (S) that is fitted up and down to the reinforcement (10) The end portion of the upper jaw 20 is caught by the inside of the reinforcement 10 and at the same time the reinforcement is in close contact with the pin 40 is fixed.

In addition, the pull mechanism used in the construction method according to the first embodiment of the present invention shown in Figure 2, as in the perspective view of Figure 4a and the bottom view of Figure 4b, the reinforcement material that is not directly pulling and pulling the reinforcement 10 To match the bent angle of the anchor 90 to the engaging portion 210 of the cylindrical shape so as to be able to pull the anchor 90 mounted with a pin 95 made by cutting the reinforcement to a certain length at the rear end of the (10) The locking grooves 212 and 214 are formed, and the through hole 216 formed vertically in the middle of the cylindrical locking portion 210 has a temporary fixing pin inside the anchor 90 that has completed the pulling operation. 60) so that the anchor 90 can be temporarily fixed on the reinforcement soil, and at this time, by hitting the engaging portion 210 of the cylindrical shape with a hammer or the like so that the anchor 90 is stuck in the reinforcement soil about halfway. The stationary state becomes more robust.

Further, in addition to the spike 222, the front and rear of the footrest 220 is bent forward and downward so that the footrest 220 of the pulling mechanism 200 according to the present invention also increases the frictional resistance with the ground during the pulling operation of the reinforcing material and is not pulled forward. The resistance plate 224 is formed, and a tension gauge 230 for uniformly pulling the reinforcing material at a constant tension is provided, and the basic structure of the pulling mechanism is a utility model registration application No. 99- It is the same as that of 1000.

The anchor 90 used in the construction method according to the embodiment is bent at approximately right angles as shown by the dashed-dotted line in FIG. 4A, and for fitting the pin 95 for coupling with the reinforcement 10 on both sides. The pinhole 92 is formed long in the horizontal direction.

Figure 5 is a plan view showing a reinforcement construction method of the embodiment, the figure shows that the construction method of the present invention can be started in the center at the same time starting the pull operation of the reinforcement (10), on the contrary, the reinforcement Since the pulling operation of the middle can be separated from both sides by the method of the present invention, the present invention can multiply the pulling operation of the reinforcement, which was possible in only one direction at the same time as in the past, and can be further doubled at the working speed. The period can also be shortened.

Figure 6a is a cross-sectional view of the prefabricated retaining soil retaining wall according to the first embodiment of the present invention, showing a case where a large friction angle of the sandy soil is used as a backfill material for the reinforced soil body 50, using only the reinforcement material As compared with the case, by mounting the anchor 90 at the rear end of the reinforcing material, the bearing resistance of the retaining wall can be improved by the acupressure bearing force of the anchor 90, so that a more solid retaining wall can be constructed.

FIG. 6B is a cross-sectional view of a construction state in the case of using a viscous soil having a relatively small friction angle, and the present invention relates to the reinforcement 10 and the reinforcement soil 5 by the support resistance of the anchor 90 mounted at the rear end of the reinforcement 10. Even if the friction force is somewhat small, the support resistance of the anchor 90 sufficiently compensates for the construction of the stable prefabricated retaining soil retaining wall, and the aggregate drainage layer for draining the water soaked into the reinforcement soil 50 using the less viscous soil ( 55) is formed at a certain height during reinforcement soil formation.

FIG. 7 illustrates a construction method according to a second embodiment of the present invention, FIG. 7A illustrates a modification of the second embodiment, and FIG. 8 illustrates a pulling mechanism used in the construction method of FIGS. 7 and 7A. As shown, in the present embodiment, the temporary fixing reinforcement 65 having a predetermined length is fixed to the rear end of the reinforcing member 10 pulled by the pulling mechanism 200 instead of using the < type anchor in the first embodiment. In the case where reinforcement soil compacting work is performed in a state where the reinforcement is temporarily fixed by fixing it to (67) (FIG. 7), the rear end 12 of the pulled reinforcement 10 is inserted into the insertion hole of the L-shaped anchor 90 ( 94 is a case in which the temporary fixing reinforcement 65 is inserted and fixed to the temporary fixing nail 67 (FIG. 7A), the reinforcement bite and pulling operation sequence in the present embodiment is shown in FIG. Since the same as in the embodiment, a description thereof will be omitted, and only shown in FIG. 8. As there is a difference between a middle portion of the rear end a pulling action to walk directly to 12 of a pulling mechanism (200) having an open engagement portion 210, stiffener 10.

Fig. 9 shows the bearing resistance of the reinforcement material at the front and rear widths of the reinforcement soil, i.e., the site lacking the reinforcement area on the back wall of the retaining wall, for example, a construction site having a short reinforcement area due to an obstacle that is difficult to remove, such as a rock or a concrete structure. In order to improve, the cross-sectional view showing the construction state combining the first and second embodiments, there is an obstacle (R) such as a rock or concrete structure in the lower rear of the compaction area of the reinforcement soil 50, the reinforcement area is In the short case, the anchor 90 shown in the first embodiment is constructed by coupling to the rear end of the reinforcing material 10, and in other positions, the anchor 90 is constructed by the construction method of the second embodiment. The construction method of the present invention in combination with the method is possible to form a stable reinforcement body, thereby preventing accidents such as deformation or collapse of the retaining wall.

As described above, the present invention uses a pull mechanism at the rear end of the middle portion of the band-shaped reinforcement fixed at both sides in a state in which the band-shaped reinforcement fastened to both sides of the adjacent wall of the retaining wall wall is fixed with two bite mechanisms so as not to hang. Pull it to a uniform tension and fix it with temporary fixing pins, dismantle one of the two bite mechanisms, hang it on the side of the next connector that needs to be pulled again to bite the reinforcement, and then move the pull mechanism to pull the next reinforcement. By repeating the above, it is possible to prevent the occurrence of loosening at the portion where the reinforcement is folded by the biting mechanism, the pulling operation of the reinforcement by the pull mechanism can be quickly pulled to all uniform tension force alone, the other of the present invention In this embodiment, the anchor is attached to the rear end of the stiffener and the temporary The bearing capacity of the retaining wall is improved not only by the frictional force between the reinforcing material and the reinforcing soil, but also by the anchoring resistance of the anchor. Soil can also be used as a clay with a small friction angle can be useful in the viscous soil can be secured at the construction site, and can reduce the cost of purchasing and transporting the backfill material, if there is a long burial, such as rock or concrete structure Even if the reinforcement area is short, sufficient retaining wall support force can be exhibited by the anchor's support resistance, so stable retaining wall can be constructed at any construction site.

Claims (5)

In the method of supporting the retaining wall by continuously connecting the strip-shaped reinforcement with pins in a zigzag manner and pinning the reinforcement clay backing material at the rear of the retaining wall wall using a continuous strip-shaped reinforcement, Fixing the band-shaped reinforcement 10 caught on both sides of the adjacent connector 30 of the retaining wall wall 20 with a bite mechanism 100 so as to be caught by the connector 30 without sagging; Pull the reinforcement 10 on the reinforcement body 50 on the reinforcement body 50 by pulling the reinforcement 10 from the rear end 12 of the middle portion of the belt-shaped reinforcement 10 fixed with both ends being connected to the connector 30. Prefabricated reinforcement earth retaining wall support method for constructing a reinforcement, characterized in that it comprises a temporary fixing to. The method of claim 1, Temporary fixed reinforcement 65 is fitted to the rear end of the reinforcement 10, the temporary fixed reinforcement 65 is a reinforcement for supporting prefabricated reinforcement soil retaining wall, characterized in that the temporary fixing pin (67) is fixed on the reinforcement soil 50 Construction method. The method of claim 1, The rear end of the reinforcing material (10) anchor 90 is connected to the pin (95), the reinforcement construction method for prefabricated soil retaining wall support characterized in that the pulling mechanism 200 is pulled on the anchor (90). The upper and lower jaws (110, 120) can be pulled to the rear by bringing the pin 40 and the reinforcement 10 in close contact with both connectors attached to the retaining wall wall 20, the upper jaw (110) has both ends of the connector It is formed short so as not to be caught in the middle portion is formed in the iron shape so as to be inserted into the upper inside of the connector 30, the lower jaw 120 is so that both ends are in close contact with the rear outer side of the connector 30. The intermediate portion is formed in a yaw shape so that the reinforcement 10 can be pulled backwards, and the upper and lower jaws 110 and 120 are bent inward to pull the pin 40 and the outside of the connector 30. Reinforcement bite mechanism for prefabricated reinforcement earth retaining wall support, characterized in that the close contact with. In order to be able to pull the reinforcement for supporting the prefabricated reinforcement retaining wall, the engaging groove (212) (214) is formed in accordance with the bent angle of the anchor 90 mounted on the rear end of the reinforcement (10) and pulled in the middle The cylindrical anchoring portion 210 having a through-hole 216 formed vertically so as to fix the anchor 90 completed on the reinforcement soil 50 with the temporary fixing pin 60 is provided at the tip. Reinforcement pull mechanism for prefabricated earth retaining wall support.