KR102439854B1 - Connecting device for PHC pile - Google Patents

Abstract

The present invention makes it easy to combine the upper and lower PHC piles when connecting the upper and lower PHC piles by forming both the supporting surfaces of the upper and lower protrusions to be inclined at a certain angle from the vertical. When it acts, the separation and rotation between the upper and lower protrusions are suppressed by the shear fixing key on one side of the support surface, and the other support surface of the lower protrusion holds the other support surface of the upper protrusion that wants to move upward on the other support surface. Separation is suppressed to maintain a stable connection, and since a key hole is formed only on one side of the support surface of the upper and lower protrusions, only 1/2 of the shear fixing key is used compared to the existing method, thereby reducing material and construction costs and shortening construction time. It relates to the connection device of the PHC pile that can secure economic feasibility.

Description

Connecting device for PHC pile

The present invention relates to a PHC pile connecting device in which an upper ring and an upper protrusion plate fixed to the tip of an upper PHC pile, and a lower ring and a lower protrusion plate fixed to the head of the lower PHC pile are coupled to each other, and more particularly, both side support surfaces By inserting a shear fixing key into the keyhole formed only on one side of the support surface of the upper and lower protrusions formed at a certain angle from the vertical, it facilitates the coupling when the upper and lower PHC piles are connected, and the joint of the upper and lower PHC piles After that, when a tensile force is applied to the joint, separation and rotation between the upper and lower protrusions are suppressed by the shear fixing key on one support surface, and the other support surface of the upper protrusion to move upwards on the other support surface is placed on the lower protrusion plate. As the other side of the support surface holds it, separation is suppressed and a stable connection can be maintained, and since a key hole is formed only on one side of the support surface of the upper and lower protrusions, only 1/2 of the shear fixing key is used compared to the existing method, so material and construction costs It relates to a connection device for PHC piles that can reduce the cost of construction and secure economic feasibility by shortening the construction time.

In recent years, with the rapid expansion of downtown areas, the number of structures, including infrastructure such as roads and bridges, and various building structures, is increasingly being built on soft ground.

In such a ground, since the depth from the ground surface to the support layer with high ground strength is generally very deep, the length of the PHC pile installed on the structure to transmit the load of the structure to the support layer becomes longer.

However, since the maximum length of PHC piles currently being produced is only 15m, when the depth of the support layer is 15m or more, it is inevitable to connect multiple PHC piles of the same diameter and use the lower PHC piles to connect the lower PHC piles. It was made by welding the metal veneer joined to the head of the pile and the tip of the upper PHC pile.

However, in the PHC pile connection method by welding, the workability is greatly affected by the climatic conditions, so when the wind blows or it rains, the welded joint is difficult and the quality is not good. Since expensive construction equipment for constructing piles had to stop and wait, there was a problem in that the construction cost increased due to the decrease in the efficiency of the construction equipment and the consequent increase in the construction period.

In addition, in order to connect PHC piles by welding, metal end plates must be joined to the head or tip of PHC piles from the time of pile production. There was a problem in that a lot of money was invested in inventory management of PHC piles because PHC piles had to be manufactured and secured in stock.

Recently, in order to solve the above problems, 'PHC file connector' has been registered as Korean Patent Registration No. 10-1983287.

The pre-registered invention relates to a PHC pile connector in which a wing plate and a space portion are alternately arranged and coupled to the inner connection ring, and the wing plate of the other acupressure connection plate is fitted and coupled to the space portion of the one side acupressure connection plate, and the wing plate It is configured so that the shear fixing pin is fitted into the fixing hole formed by the semi-circular coupling groove formed in the longitudinal direction of the side end at both ends of the.

However, the invention registered as above has a structure in which a pair of acupressure connection plates are fixed only by a shear fixing pin because both ends of the blade plate are vertically formed, and in order to firmly fix a pair of acupressure connection plates Semi-circular coupling grooves are formed on both ends of the blade plate, and shear fixing pins must be inserted into all fixing holes formed by these coupling grooves. There was an inefficient problem in that the work time required for the insertion of the shear fixing pin was increased.

Republic of Korea Patent Registration No. 10-1983287 (Registered on May 22, 2019)

This was made in consideration of the problems of the prior art as described above, and an object of the present invention is to insert a shear fixing key into a keyhole formed only on one side of the support surface of the upper and lower protrusion boards in which both support surfaces are inclined at a certain angle from the vertical. When the upper PHC pile and the lower PHC pile are connected, it is easy to combine. After the upper and lower PHC piles are connected, if a tensile force is applied to the joint, one side of the support surface is separated between the upper and lower protrusions by the shear fixing key. To provide a PHC pile connection device in which the rotation is suppressed and the separation is suppressed by the other support surface of the lower protrusion holding the other support surface of the upper protrusion to move upward in the other support surface.

In addition, another object of the present invention is that the keyhole is formed only on one side of the support surface of the upper and lower protrusions, so that only 1/2 of the shear fixing key is used compared to the conventional method, thereby reducing material and construction costs and reducing construction time. To provide a connection device.

The PHC pile connection device according to the present invention for achieving the above object is an upper ring and an upper protrusion plate fixed to the tip of the upper PHC pile, and a lower ring and lower protrusion plate fixed to the head of the lower PHC pile. In the PHC pile connection device, the upper and lower protrusions with both support surfaces inclined at a certain angle from the vertical on the outer surfaces of the upper and lower rings alternately with the space portions of the same shape as the upper and lower protrusions are radially configured, , When a semicircular coupling groove is formed in the longitudinal direction of one side of the support surface of the upper and lower protrusions, and the upper protrusion is inserted and coupled into the space between the lower protrusions, a key hole is formed in the adhesion portion of one side of the support surface, It includes a shear fixing key that is fastened to the keyhole to combine the upper and lower protrusion boards, and when a tensile force is applied to the joint after connecting the upper and lower PHC piles, the upper and lower protrusion boards by the shear fixing key on one side of the support surface Separation and rotation are suppressed, and the other support surface of the lower protrusion holds the other support surface of the upper protrusion to move upward on the other support surface, so that the separation is suppressed.

The front fixing key is made of a cylindrical shape having the same diameters of the front end and the rear end.

The shear fixing key is formed in a tapered shape.

It is characterized in that by forming a chamfered portion at the inlet portion of the other support surface of the upper and lower protrusions to facilitate the coupling of the upper and lower protrusions and the space portion.

According to the present invention, when the upper PHC pile and the lower PHC pile are connected by inserting the shear fixing key into the keyhole formed only on one side of the supporting surface of the upper and lower protrusions formed with both support surfaces inclined at a certain angle from the vertical, it is easy to combine, After joining the upper and lower PHC piles, if a tensile force is applied to the joint, separation and rotation between the upper and lower protrusions are suppressed by the shear fixing key on one supporting surface, and the upper protrusion that wants to move to the upper side on the other supporting surface is suppressed. As the other support surface of the lower protrusion holds the other support surface, separation is suppressed, thereby maintaining a stable connection state.

In addition, according to the present invention, the keyhole is formed only on one side of the support surface of the upper and lower protrusions, so that only 1/2 of the shear fixing key is used compared to the conventional method, thereby reducing material and construction costs and shortening the construction time to secure economic feasibility There is an effect that can be done.

1 is an exploded perspective view of the present invention.
Figure 2 is a perspective view of a state in which the upper and lower protrusions of the present invention are fixed with a cylindrical shear fixing key in a coupled state.
3 is a perspective view of a state in which the upper and lower protrusions of the present invention are fixed with a tapered shear fixing key in a coupled state.
4 to 6 are front views showing the assembled state of the present invention.
7 is an exploded perspective view of another embodiment of the present invention.
8 is a perspective view of a state in which the upper and lower protrusions of another embodiment of the present invention are fixed with a cylindrical shear fixing key in a coupled state.
9 is an exploded perspective view of another embodiment of the present invention.
10 is a perspective view of a state in which the upper and lower protrusions are fixed with a cylindrical shear fixing key in a coupled state according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail based on the accompanying drawings. 1 is an exploded perspective view of the present invention, and FIG. 2 is a perspective view of a state in which the upper and lower protrusions are fixed with a cylindrical shear fixing key in a state where the upper and lower protrusions of the present invention are combined.

First, the PHC pile connection device of the present invention, the upper ring 20 and the upper projection plate 40 fixed to the tip of the upper PHC pile 10, the lower ring 30 fixed to the head of the lower PHC pile 10' ) and the lower protrusion plate 50 in the PHC pile connection device that is coupled to each other,

On the outer surface of the upper and lower rings 20 and 30, the upper and lower protrusion plates 40 and 50 in which both support surfaces are inclined at a certain angle from the vertical are radially configured, and the upper and lower protrusion plates 40 ) (50) on one side of the support surfaces 41 and 51 in the longitudinal direction of the support surface, a semi-circular coupling groove 60, 70 is formed, so that the upper protrusion plate 40 is spaced between the lower protrusion plates 50. When inserted and coupled to the portion 53, a key hole (H) is formed in the close contact portion of the one side support surfaces 41 and 51, and is fastened to the key hole (H) to provide upper and lower protrusions 40 and 50 ) includes a shear fixing key 80 for coupling, and when a tensile force is applied to the joint after connecting the upper and lower PHC piles 10 and 10 ′, the shear fixing key is located on one side of the supporting surfaces 41 and 51 . Separation and rotation between the upper and lower protrusions 40 and 50 are suppressed by the 80, and the other support surface of the upper protrusion plate 40 to be moved upward in the other support surfaces 42 and 52 ( 42) is held by the other side support surface 52 of the lower protrusion plate 50, so that separation is suppressed. At this time, the thickness of the upper and lower rings 20 and 30 is 1/2 of the thickness of the upper and lower protrusion boards 40 and 50 so that the upper and lower rings 20 and 30 are overlapped with each other. The protrusions 40 and 50 are coupled, which corresponds to the sum of the heights of the upper and lower rings 20 and 30 being the same as the heights of the upper and lower protrusions 40 and 50 .

The present invention is to provide a PHC pile connecting device 100 that is convenient to construct while reducing manufacturing cost when connecting the upper and lower PHC piles 10 and the lower PHC piles 10 ′ adjacent up and down.

An upper ring 20 and an upper protrusion plate 40, a lower ring 30 and a lower protrusion plate 50 are respectively on the heads of the lower PHC piles 10' facing the front end of the upper PHC piles 10. is fixed

The upper and lower protrusion plates 40 and 50 radially formed on the outer surfaces of the upper and lower rings 20 and 30 have both support surfaces inclined at a certain angle from the vertical, and the upper and lower protrusion plates 40 ) (50) is characterized in that the upper and lower protrusion boards 40, 50 can be inserted and coupled spaces 43 and 53 are formed between the upper and lower PHC piles 10, 10 '), one side support surface 41 of the upper protrusion plate 40 is configured to be coupled while rotating along the inclined surface of the one side support surface 51 of the lower protrusion plate 50 when connected.

The upper and lower protrusion boards 40 and 50 are made of a support surface 41 and 51 on one side and a support surface 42 and 52 on the other side. 60 and 70 are formed in the longitudinal direction of the support surfaces 41 and 51, and the coupling grooves 60 and 70 are not formed on the other support surfaces 42 and 52, but are formed only as inclined surfaces.

One side of the supporting surface 41 of the upper protruding plate 40 naturally slides along the inclined surface of the one side of the supporting surface 51 of the lower protrusion plate 40 and rotates at the same time so that it can be coupled to one side of the supporting surfaces 41 and 51 ) of the semicircular coupling grooves 60 and 70 formed in the inner side is preferably formed in a closed structure.

The inclinations of the one side support surfaces 41 and 51 and the other side support surfaces 42 and 52 may be the same or different.

That is, when the inclination of the one side support surface 41 (51) and the other side support surface 42, 52 is the same, the inlet width and the space portion 43, 53 of the upper and lower protrusions 40 and 50 are the same. may not be easy to combine due to the same inlet width of the upper and lower protrusion board Since the width of the inlet of the spaces 43 and 53 is greater than the width of the inlet of the 40 and 50 , the coupling of the upper and lower protrusions 40 and 50 is facilitated.

In addition, the semicircular coupling grooves 60 and 70 are combined with each other due to the combination of the upper and lower protrusions 40 and 50, and a key hole (H) is formed only in the close contact portion of the one side support surfaces 41 and 51 . The keyhole (H) may be formed in various cross sections, but is preferably formed in a circular cross section in consideration of manufacturability and connection performance.

The keyhole (H) is preferably formed in the same cross section as the shear fixing key 80 so that the shear fixing key 80 can be inserted by hitting by force fit without a separate play.

The shear fixing key 80 is preferably made of a cylindrical shape having the same diameter at the front end and the rear end, but as shown in FIG. 3, the shear fixing key 80 has a larger diameter at the rear end than the front end. And, of course, the coupling grooves 60 and 70 to which the shear fixing key 80 is coupled should also be formed in the same shape.

The upper and lower protrusion boards 40, 50 by forming a chamfered part 90 at the inlet portion of the other side support surfaces 42 and 52 of the upper and lower protrusions 40 and 50 at a vertical or higher angle. may facilitate the bonding of

The assembly process of the present invention configured as described above will be described in detail as follows.

First, as shown in FIGS. 4 to 6, the upper and lower protrusion boards 40 and 50 and the upper and lower rings ( After positioning 20 and 30, the upper ring 20 and the upper protrusion plate 40 integrally formed by inserting a fixing bolt through the through hole formed in the upper and lower protrusion boards 40 and 50 are mounted on the upper PHC piles. The tip of (10) and the lower ring 30 and the lower protrusion plate 50 are fixed to the head of the lower PHC pile 10' in a conventional manner.

In a state in which the upper and lower rings 20 and 30 and the upper and lower protrusion boards 40 and 50 are fixed as described above and the upper and lower PHC piles 10 and 10 ′ are manufactured, the lower After inserting the PHC pile 10' into the drilling hole for the pile connection, the upper PHC pile 10 is lifted with equipment such as a crane to connect the upper PHC pile 10 to the lower PHC pile 10'. It is seated on the upper part of the lower PHC pile 10' in the state.

At this time, when the upper protrusion plate 40 is positioned on the same vertical line as the space portion 53 formed between the lower protrusion plates 50 and the upper PHC pile 10 is lowered, the upper protrusion plate 40 is The upper protrusion plate 40 is inserted and coupled to the space 53 while the one side support surface 41 slides along the one side support surface 51 of the lower protrusion plate 50 and rotates at the same time.

On the other hand, when the upper protrusion plate 40 is coupled to the space portion 53 formed between the lower protrusion plates 50, the other side support surfaces 42 and 52 of the upper and lower protrusion plates 40 and 50 are formed. Since the chamfered part 90 is formed in the inlet part, the upper protrusion plate 40 can be easily inserted and coupled into the space part 53 .

When the upper and lower protrusion boards 40 and 50 are coupled to each other as described above, a semicircular coupling groove 60 formed in the upper protrusion board 40 and the lower protrusion board ( The semicircular coupling groove 70 formed in 50 is integrated to form a key hole H, and the other side support surfaces 42 and 52 are in close contact with each other at a predetermined angle.

That is, a key hole (H) is formed on the one side support surfaces (41, 51), and a key hole (H) is not formed on the other side support surfaces (42, 52) and maintains a close contact state, as described above. Since the shear fixing key 80 is coupled to the keyhole (H) formed only in the close contact portion of the one side support surfaces 41 and 51, the amount of the shear fixing key 80 used is reduced by 1/2 compared to the existing one, thereby reducing the material cost and construction The time is shortened and the construction cost can be reduced.

In this state, after inserting the shear fixing key 80 into the key hole (H), when hitting using a tool, the shear fixing key 80 is coupled to the key hole (H) while the upper and lower PHC piles (10) ( 10') joint construction is completed.

Accordingly, when a tensile force is generated at the joint in a state in which the upper and lower PHC piles 10 and 10 ' are connected by the present invention as described above, one side of the supporting surfaces 41 and 51 is a shear fixing key 80. Since is coupled, separation and rotation between the upper and lower protrusion plates 40 and 50 are suppressed, and on the other side support surfaces 42 and 52, the other side support surface ( 42) is held by the other side support surface 52 of the lower protrusion plate 50, so that the separation of the upper and lower protrusion plates 40 and 50 is suppressed and a stable connection state can be maintained.

7 is an exploded perspective view of another embodiment of the present invention, and FIG. 8 is a perspective view of a state in which the upper and lower protrusions are fixed with a cylindrical shear fixing key in a state where the upper and lower protrusions of another embodiment of the present invention are combined.

7 and 8 have almost the same configuration and function as those of FIGS. 1 and 2 described above. However, the only difference is that the upper and lower protrusions 40 and 50 are formed radially on the inner surfaces of the upper and lower rings 20' and 30', with both support surfaces inclined at a certain angle from the vertical. . As described in FIG. 1 , semicircular coupling grooves 60 and 70 are formed on one side of the supporting surfaces 41 and 51 of the upper and lower protrusions 40 and 50 in the longitudinal direction of the supporting surface. When the substrate 40 is inserted and coupled into the space portion 53 between the lower protrusion plate 50, the contact portion of the one side support surfaces 41 and 51 and the upper and lower rings 20' and 30') A keyhole (H) is continuously formed in the semicircular ring groove formed on the lower and upper surfaces of Including, when a tensile force is applied to the joint after connecting the upper and lower PHC piles 10 and 10 ′, the upper and lower protrusion boards ( Separation and rotation are suppressed between 40 and 50, and the other side support surface 42 of the upper protrusion plate 40 to be moved upward in the other support surfaces 42 and 52 is the other side of the lower protrusion plate 50. It is characterized in that the separation is suppressed by holding the support surface (52). At this time, the thickness of the upper and lower rings 20' and 30' is 1/2 of the thickness of the upper and lower protrusions 40 and 50, so that the upper and lower rings 20' and 30' are overlapped with each other. The upper and lower protrusion boards 40 and 50 are coupled in this, which means that the sum of the heights of the upper and lower rings 20' and 30' is the same as the height of the upper and lower protrusion boards 40 and 50. It corresponds to that, and fixed shear at the position where the semicircular coupling grooves 60 and 70 are formed on the upper and lower protrusion boards 40 and 50 on the lower and upper surfaces of the upper and lower rings 20' and 30'. It is characterized in that a semicircular ring groove for inserting the key (80) is formed.

9 is an exploded perspective view of another embodiment of the present invention, and FIG. 10 is a perspective view of a state in which the upper and lower protrusions are fixed with a cylindrical shear fixing key in a state in which the upper and lower protrusions are combined according to another embodiment of the present invention. .

9 and 10, and the configuration and function of FIGS. 1 and 2 described above are mostly the same. However, the only difference is that the upper protrusion plate 40 with both support surfaces inclined at a certain angle from the vertical on the outer surface of the upper ring 20 "is the same shape as the upper protrusion plate 40 ( 43) alternately and radially, and the lower protrusion plate 50 with both support surfaces inclined at a certain angle from the vertical on the inner surface of the lower ring 30 "is a space of the same shape as the lower protrusion plate 50. It is configured in a radial direction alternately with the portion 53 . In addition, as described in FIG. 1 , semicircular coupling grooves 60 and 70 are formed on one side of the support surfaces 41 and 51 of the upper and lower protrusions 40 and 50 in the longitudinal direction of the support surface. When the upper protrusion plate 40 is inserted and coupled into the space portion 53 between the lower protrusion plates 50 , the contact portions of the one side support surfaces 41 and 51 and the outer surface of the lower protrusion plate 50 . A keyhole (H) is continuously formed in the ring groove portion formed in a circular shape in the lower ring (30″) located, and the shear fixing key ( 80), and when a tensile force is applied to the joint after connecting the upper and lower PHC piles 10 and 10 ′, the upper and lower parts are operated by the shear fixing key 80 on one side of the support surfaces 41 and 51 . Separation and rotation are suppressed between the protrusion plates 40 and 50, and the other support surface 42 of the upper protrusion plate 40 to be moved upward in the other support surfaces 42 and 52 is moved to the lower protrusion plate 50. ) is characterized in that the separation is suppressed by holding the other side support surface 52. At this time, the vertical height of the upper and lower rings 20" and 30" is the vertical height of the upper and lower protrusions 40 and 50. The direction height may be the same or it may be made smaller than that within the allowable range of stress, and from the side of the lower rings 20' and 30' to the semicircular coupling grooves 60 and 70 of the lower protrusion plate 50. A circular ring groove for inserting the shear fixing key 80 may be formed at a corresponding position.

And although not shown in detail in comparison with FIGS. 9 and 10 , the upper protrusion plate 40 on the inner surface of the upper ring 20 ″, the support surfaces of which are inclined at a certain angle from the vertical, is the same as the upper protrusion plate 40 . The lower protrusion plate 50 is formed alternately with the space portion 43 in the shape of a radial and is inclined at a certain angle from the vertical to both sides of the support surface on the outer surface of the lower ring 30 "the lower protrusion plate 50. It may be alternately configured radially with the space portion 53 of the same shape as the upper protrusion plate 40, when inserted and coupled into the space portion 53 between the lower protrusion plates 50, one side support surface A key hole (H) is continuously formed in the ring groove portion formed in a circle on the upper ring 20 ″ located on the outer surface of the contact portion of (41) and (51) and the upper protrusion plate 40 .

In addition, the embodiments of the present invention shown in FIGS. 7 to 10 also have a tapered shape with a larger diameter at the rear end than the front end, and the shear fixing key 80 is formed in the same manner as in FIG. 3 described the embodiment of the present invention. · A chamfered portion 90 is formed at the inlet portion of the other side support surfaces 42 and 52 of the lower protrusion boards 40 and 50 to form the upper and lower protrusion boards 40 and 50 and the spaces 43 and 53 ) to facilitate the coupling, and by increasing the inclination from the vertical of the one side support surfaces 41 and 51 of the upper and lower protrusion boards 40 and 50 to the inclination of the other side support surfaces 42 and 52 , the upper and lower protrusions By making the inlet width of the spaces 43 and 53 larger than the inlet width of the lower protrusion plates 40 and 50, the insertion and coupling of the upper and lower protrusion plates 40 and 50 are easy. may be, and the drawings for this will be omitted.

As described above, although the present invention has been described with reference to the limited embodiments and drawings, the terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and the technical spirit of the present invention It must be interpreted with a corresponding meaning and concept. Therefore, the configuration shown in the embodiments and drawings described in the present specification is only one embodiment of the present invention, and does not represent all the technical spirit of the present invention, so within the limit that does not depart from the scope of the claims of the present invention, various It should be understood that there may be equivalents and variations.

10: Upper PHC Pile 10': Lower PHC Pile
20,20',20": upper ring 30,30',30": lower ring
40: upper projection plate 41: one side support surface
42: the other side support surface 43: space part
50: lower protrusion plate 51: one side support surface
52: the other side support surface 53: space part
60, 70: coupling groove 80: shear fixing key
90: chamfer

Claims (8)

The upper ring 20 and the upper protrusion plate 40 fixed to the tip of the upper PHC pile 10, the lower ring 30 and the lower protrusion plate 50 fixed to the head of the lower PHC pile 10' are mutually In the combined PHC pile connection device,
On the outer surface of the upper and lower rings 20 and 30, the upper and lower protrusion boards 40 and 50 in which both support surfaces are inclined at a certain angle from the vertical are formed with the upper and lower protrusion boards 40 and 50 and The space portions 43 and 53 of the same shape are alternately radially configured, and the sum of the heights of the upper and lower rings 20 and 30 is equal to the height of the upper and lower protrusions 40 and 50 and
Semi-circular coupling grooves 60 and 70 are formed in the longitudinal direction of one side support surfaces 41 and 51 of the upper and lower protrusion boards 40 and 50, and one side of the upper protrusion board 40 is supported. A semi-circular coupling groove 60 formed on one side of the support surface 41 and 51 so that the surface 41 slides naturally along the inclined surface of the support surface 51 of the lower protrusion 50 and rotates at the same time. ) 70, the inner side is blocked, and the coupling grooves 60 and 70 are not formed on the other side support surfaces 42 and 52, but are formed only with an inclined surface, so that the upper protrusion plate 40 is the lower protrusion plate 50. When inserted and coupled into the space portion 53 between, a key hole (H) is formed in the close contact portion of the one side support surfaces 41 and 51,
It is fastened to the key hole (H) and includes a shear fixing key 80 for coupling the upper and lower protrusion boards 40 and 50,
After connecting the upper and lower PHC piles 10 and 10 ', when a tensile force is applied to the joint, the upper and lower protrusion boards 40 (40) ( Separation and rotation of 50 are suppressed, and the other support surface 42 of the upper protrusion plate 40 to be moved upward in the other support surfaces 42 and 52 is moved to the other support surface 52 of the lower protrusion plate 50 . ) PHC pile connection device, characterized in that the separation is suppressed by holding it.
The upper ring 20' and the upper protrusion plate 40 fixed to the front end of the upper PHC pile 10, the lower ring 30' and the lower protrusion plate 50 fixed to the head of the lower PHC pile 10' In this mutually coupled PHC pile connector,
On the inner surface of the upper and lower rings 20' and 30', the upper and lower protrusion boards 40 and 50 in which both support surfaces are inclined at a predetermined angle from the vertical are the upper and lower protrusion boards 40, 50 ) and alternately radially configured with the space portions 43 and 53 of the same shape, and the sum of the heights of the upper and lower rings 20 ′ and 30 ′ is the upper and lower protrusion plates 40 and 50 . equal to the height of
Semi-circular coupling grooves 60 and 70 are formed in the longitudinal direction of one side support surfaces 41 and 51 of the upper and lower protrusion boards 40 and 50, and one side of the upper protrusion board 40 is supported. A semi-circular coupling groove 60 formed on one side of the support surface 41 and 51 so that the surface 41 slides naturally along the inclined surface of the support surface 51 of the lower protrusion 50 and rotates at the same time. ) 70, the inner side is blocked, and the coupling grooves 60 and 70 are not formed on the other side support surfaces 42 and 52, but are formed only with an inclined surface, so that the upper protrusion plate 40 is the lower protrusion plate 50. When inserted and coupled to the space portion 53 between, the semicircular ring groove formed on the lower and upper surfaces of the close contact portion and the upper and lower rings 20' and 30' of the one side support surfaces 41 and 51 A key hole (H) is continuously formed,
It is fastened to the key hole (H) and includes a shear fixing key 80 for coupling the upper and lower protrusion boards 40 and 50,
After connecting the upper and lower PHC piles 10 and 10 ', when a tensile force is applied to the joint, the upper and lower protrusion boards 40 (40) ( Separation and rotation of 50 are suppressed, and the other support surface 42 of the upper protrusion plate 40 to be moved upward in the other support surfaces 42 and 52 is moved to the other support surface 52 of the lower protrusion plate 50 . ) PHC pile connection device, characterized in that the separation is suppressed by holding it.
The upper ring 20" and the upper protrusion plate 40 fixed to the front end of the upper PHC pile 10, the lower ring 30" and the lower protrusion board 50 fixed to the head of the lower PHC pile 10' In this mutually coupled PHC pile connector,
On the outer or inner surface of the upper ring 20 ", the upper protrusion plate 40 inclined at a predetermined angle from the vertical on both sides of the support surface alternately with the space portion 43 of the same shape as the upper protrusion plate 40 The lower protrusion plate 50 is formed radially, and the support surfaces on both sides of the inner surface or the outer surface of the lower ring 30 ″ are inclined at a certain angle from the vertical space portion ( 53) and alternately composed radially,
Semi-circular coupling grooves 60 and 70 are formed in the longitudinal direction of one side support surfaces 41 and 51 of the upper and lower protrusion boards 40 and 50, and one side of the upper protrusion board 40 is supported. A semi-circular coupling groove 60 formed on one side of the support surface 41 and 51 so that the surface 41 slides naturally along the inclined surface of the support surface 51 of the lower protrusion 50 and rotates at the same time. ) 70, the inner side is blocked, and the coupling grooves 60 and 70 are not formed on the other side support surfaces 42 and 52, but are formed only with an inclined surface, so that the upper protrusion plate 40 is the lower protrusion plate 50. When inserted and coupled into the space portion 53 between, the upper ring (20 ") located on the outer surface of the contact portion and the upper protrusion plate 40 or the lower protrusion plate 50 of one side of the support surfaces 41 and 51. ) or a key hole (H) is continuously formed in the ring groove portion formed in a circular shape in the lower ring (30 "),
It is fastened to the key hole (H) and includes a shear fixing key 80 for coupling the upper and lower protrusion boards 40 and 50,
After connecting the upper and lower PHC piles 10 and 10 ', when a tensile force is applied to the joint, the upper and lower protrusion boards 40 (40) ( Separation and rotation of 50 are suppressed, and the other support surface 42 of the upper protrusion plate 40 to be moved upward in the other support surfaces 42 and 52 is moved to the other support surface 52 of the lower protrusion plate 50 . ) PHC pile connection device, characterized in that the separation is suppressed by holding it.
4. The method according to any one of claims 1 to 3,
The front end fixing key 80 is a PHC pile connection device, characterized in that the diameter of the front end and the rear end is made of the same cylindrical shape.
4. The method according to any one of claims 1 to 3,
The front end fixing key 80 is a PHC pile connecting device, characterized in that it is formed in a tapered shape with a larger diameter at the rear end than at the front end.
4. The method according to any one of claims 1 to 3,
A chamfered portion 90 is formed at the inlet portion of the other side support surfaces 42 and 52 of the upper and lower protrusion boards 40 and 50 to form the upper and lower protrusion boards 40 and 50 and the space portion 43. (53) PHC pile connector, characterized in that it facilitates the coupling.
4. The method according to any one of claims 1 to 3,
The upper and lower protrusion boards 40, ( 50) PHC pile connection device, characterized in that it facilitates the coupling of the upper and lower protrusions 40 and 50 by making the inlet width of the space portions 43 and 53 larger than the inlet width of the 50).


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