KR102523170B1 - Apparatus of connector concrete piles - Google Patents

Abstract

The present invention relates to a concrete pile connection device, which is easily stored, transported and installed, comprising: an upper annular plate including a first base part, a first outer sidewall part, and a first inner sidewall part; a lower annular plate including a second base part, a second outer sidewall part, a second inner sidewall part; and a plate fixing member fastened to a plurality of first engaging boss parts and a second engaging boss part.

Description

Concrete pile connection device {APPARATUS OF CONNECTOR CONCRETE PILES}

The present invention relates to a concrete pile connection device, and more particularly, to a concrete pile connection device for easy connection of concrete piles.

In general, in the case of civil engineering or construction work on the ground, it is a well-known fact that concrete piles are driven to reinforce the soft ground. In the method of using piles to reach the support layer, steel pipe piles pre-produced at the factory or ready-made concrete piles such as PHC, PC, RC are constructed by hitting or burying.

In particular, the PHC piles (Pretentioned spun High strength Concrete Piles) are high-strength piles made by applying centrifugal force. Since the allowable compressive stress of concrete is very large, they can withstand a greater axial load than conventional PC piles and have excellent impact strength. In addition, since it completely absorbs the tensile stress caused by the reflected wave generated during driving, there are no cracks, and the middle hard layer, which is difficult to drive with conventional PC piles, can be easily driven, so the advantage of being able to drive deeper and harder stratum It has an excellent effect as a soft ground treatment method.

In the PHC piles configured in this way, it is common to vary the depth of the concrete piles or connect them up and down, depending on the size of the building to be built or the state of the geology. connectors are being used.

Most of the conventional concrete pile connection devices are manufactured and used in the shape of a disc or annular plate, and since the size has a diameter corresponding to the cross-sectional diameter of the concrete pile, there is a problem that it is not easy to transport and store.

Publication No. 10-2019-0137196

Therefore, the problem to be solved by the present invention is to provide a concrete pile connection device that is easy to store, transport and install, and makes the joining process easy and fast.

Concrete pile connection device according to an embodiment of the present invention has a first base portion having an annular shape, a first outer wall portion that protrudes annularly from the outer edge of the first base portion, and an annular shape from the inner edge of the first base portion. A first inner side wall portion protruding into, a plurality of first fixing member insertion holes arranged spaced apart at regular intervals along the circumferential direction of the first base portion and disposed inside the first outer side wall portion and the first inner side wall portion. , An upper annular plate including a plurality of first engagement boss portions disposed between the plurality of first fixing member insertion holes; A second base having an annular shape, a second outer side wall portion annularly protruding from an outer edge of the first base portion, a second inner side wall portion annularly protruding from an inner edge of the second base portion, the second base A plurality of second fixing member insertion holes arranged spaced apart at regular intervals along the circumferential direction of the portion and disposed inside the second outer side wall portion and the second inner side wall portion, between the plurality of second fixing member insertion holes a lower annular plate comprising a plurality of second engagement boss portions disposed thereon; and a plate fixing member fastened to the plurality of first engagement boss portions and the second engagement boss portions engaged with each other when the upper annular plate and the lower annular plate are coupled, wherein the upper annular plate has an arc length The first unit plates divided into quarters are combined in a dovetail coupling structure to include the plurality of first fixing member insertion holes and the plurality of first engagement boss portions obtained by equally dividing the number of portions of the plurality of first fixing member insertion holes and the plurality of first engagement boss portions. The lower annular plate is configured to form a shape, and the arc length is the same, and the plurality of second fixing member insertion holes and the plurality of second engagement bosses are divided into 4 parts so as to include a partial number obtained by equally dividing the second unit plates. It may be coupled in a dovetail coupling structure to form an annular shape of the lower annular plate.

In one embodiment, the upper annular plate is a first fixing formed between the first fixing member insertion hole and the first engagement boss portion to face the second fixing member insertion hole when coupled with the lower annular plate Further comprising a member head receiving hole, wherein the lower annular plate is formed between the second fixing member insertion hole and the second engagement boss portion to face the first fixing member insertion hole when coupled with the upper annular plate Further comprising a second fixing member head receiving hole, wherein the first engaging boss portion is respectively disposed in the direction of the first outer side wall portion and the first inner side wall portion at respective positions arranged in the circumferential direction of the upper annular plate It consists of a pair of first arcuate bosses, and the second engagement boss portion is formed with a length corresponding to the distance between the pair of first arcuate bosses at each position arranged in the circumferential direction of the lower annular plate. It consists of a second arcuate boss, and each of the pair of first arcuate bosses protrudes in the protruding direction of the first outer side wall portion and the first inner side wall portion in a curved or non-curved arch shape, and the first arcuate boss is formed at the center of the first arcuate boss. A pin insertion hole is provided, and the single second arched boss protrudes in a protruding direction of the second outer side wall portion and the second inner side wall portion in a curved or non-curved arch shape to form a second pin insertion hole in the center. The plate fixing member is composed of a pin having a length equal to or greater than the sum of the lengths of the pair of first arcuate bosses and the single second arcuate boss, and the upper annular plate and the lower annular plate are coupled. When the pair of first arcuate bosses are engaged so that their projecting direction faces the second arcuate boss and the projecting direction of the second arcuate bosses faces the pair of first arcuate bosses, the first pin insertion hole and With the second pin insertion hole positioned on the copper wire, the pin may be inserted into the first pin insertion hole and the second pin insertion hole so that the pin may be supported on inner surfaces of the pair of first arcuate bosses.

In one embodiment, each of the first unit plates includes a trapezoidal first dovetail protrusion formed at one end and a trapezoidal first dovetail groove formed at the other end, and the first dovetail protrusion. and a coupling between the first dovetail grooves, wherein each of the second unit plates includes a trapezoidal second dovetail protrusion formed at one end and a trapezoidal second dovetail groove formed at the other end. and connected by coupling between the second dovetail protrusion and the second dovetail groove, wherein the pair of first arcuate bosses are connected to a first top surface and a first mirror connected to both sides of the first top surface in a width direction. It is formed in a non-curved arch shape including photo side surfaces, and the single second arched boss is formed in a non-curved arch shape including a second upper surface and second inclined side surfaces connected to both sides of the second upper surface, The first upper surface of each of the pair of first arcuate bosses has a first inclined surface inclined toward the end of the first inclined side surface at an end in a direction in which the pair of first arcuate bosses face each other, A second inclined surface inclined toward the end of the second inclined side surface is formed at both ends of the second upper surface in the longitudinal direction, and the diameter of the second pin insertion hole decreases toward the second inner side wall. It can be formed tapered.

In one embodiment, the pair of first arcuate bosses and the second arcuate bosses are formed in a semicircular or elliptical curved arch shape, and each of the pair of first arcuate bosses is at an end in a direction facing each other. A first inclined surface inclined toward the upper end of the first arcuate boss is formed, and the single second arcuate boss has a second inclined surface inclined toward the upper end of the second arcuate boss at both ends in the longitudinal direction thereof. , The second pin insertion hole may be formed to be tapered so that the diameter decreases in the direction of the second inner side wall portion.

According to the concrete pile connection device according to the present invention, the storage, transport and installation of the upper annular plate and the lower annular plate are easy, and the coupling process between the upper annular plate and the lower annular plate is easy and quick.

1 is an exploded perspective view for explaining the configuration of a concrete pile connecting device according to a first embodiment of the present invention.
FIG. 2 is a view showing a first unit plate constituting the upper annular plate shown in FIG. 1;
FIG. 3 is a view showing a second unit plate constituting the lower annular plate shown in FIG. 1;
4 is a view showing a state in which the upper annular plate and the lower annular plate shown in FIG. 1 are coupled through a plate fixing member.
5 is a partially enlarged cross-sectional view showing a coupled state of the plate fixing member shown in FIG. 4;
6 is a view for explaining the configuration of a concrete pile connecting device according to a second embodiment of the present invention.
FIG. 7 is a view showing a first unit plate constituting the upper annular plate shown in FIG. 6;
FIG. 8 is a view showing a second unit plate constituting the lower annular plate shown in FIG. 6;
9 is a view for explaining the configuration of a concrete pile connecting device according to a third embodiment of the present invention.
Fig. 10 is a view showing the upper annular plate shown in Fig. 9;
Fig. 11 is a view showing the lower annular plate shown in Fig. 9;
Fig. 12 is a view showing a first unit plate constituting the upper annular plate shown in Fig. 9;
Fig. 13 is a view showing a second unit plate constituting the lower annular plate shown in Fig. 9;
14 is a partially enlarged cross-sectional view illustrating a state in which the first engagement boss portion and the second engagement boss portion shown in FIGS. 12 and 13 are engaged.

Hereinafter, a concrete pile connecting device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Since the present invention can have various changes and various forms, specific embodiments will be illustrated in the drawings and described in detail in the text. However, it should be understood that this is not intended to limit the present invention to the specific disclosed form, and includes all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. Like reference numerals have been used for like elements throughout the description of each figure. In the accompanying drawings, the dimensions of the structures are shown enlarged than actual for clarity of the present invention.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. These terms are only used for the purpose of distinguishing one component from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element, without departing from the scope of the present invention.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, terms such as "comprise" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

Example 1

1 is an exploded perspective view for explaining the configuration of a concrete pile connecting device according to a first embodiment of the present invention, and FIG. 2 is a view showing a first unit plate constituting the upper annular plate shown in FIG. 1, FIG. 3 is a view showing a second unit plate constituting the lower annular plate shown in FIG. 1, and FIG. 4 shows a state in which the upper annular plate and the lower annular plate shown in FIG. 1 are coupled through a plate fixing member. It is a drawing to

1 to 3, the concrete pile connection device according to the first embodiment of the present invention may include an upper annular plate 110, a lower annular plate 120 and a plate fixing member 130.

The upper annular plate 110 and the lower annular plate 120 are fixed to opposite ends of the first and second concrete piles 10b installed up and down, respectively, so that the concrete piles 10a and 10b are integrally formed as one body. provided for linking.

The upper annular plate 110 has a first base portion 111, a first outer side wall portion 112, a first inner side wall portion 113, a plurality of first fixing member insertion holes 114, a plurality of first engagement A boss portion 115 may be included.

The first base part 111 may be provided in the form of a plate having an annular shape.

The first outer side wall portion 112 protrudes annularly from the outer edge of the annular shape of the first base portion 111, and may have a certain height.

The first inner side wall portion 113 protrudes annularly from the inner edge of the annular shape of the first base portion 111 and may have a predetermined height, the height of which is the same as the height of the first outer side wall portion 112. can be the same

The plurality of first fixing member insertion holes 114 are arranged spaced apart at regular intervals along the circumferential direction of the first base portion 111, and the first outer side wall portion 112 and the first inner side wall portion 113 It can be placed inside. For example, the plurality of first fixing member insertion holes 114 may be formed in a circular or elliptical shape.

The plurality of first engagement boss portions 115 may be disposed between the plurality of first fixing member insertion holes 114 .

The upper annular plate 110 has a first arc divided into four equal parts to include a partial number obtained by equally dividing the plurality of first fixing member insertion holes 114 and the plurality of first engagement boss portions 115 while having the same arc length. The unit plates 110a may be coupled in a dovetail coupling structure to form an annular shape of the upper annular plate 110 .

For example, the plurality of first fixing member insertion holes 114 and the plurality of first engagement boss portions 115 disposed in the entire circumferential direction of the upper annular plate 110 may be 12, respectively. Each of the divided first unit plates 110a may include three first fixing member insertion holes 114 and three first engagement bosses 115 .

In addition, in order to dovetail-couple the first unit plates 110a, each first unit plate 110a has a trapezoidal first dovetail protrusion 116a formed at one end and a trapezoidal shape formed at the other end. Including the first dovetail groove 116b of , the first dovetail protrusion 116a and the first dovetail groove 116b may be connected by coupling.

The lower annular plate 120 includes a second base portion 121, a second outer side wall portion 122, a second inner side wall portion 123, a plurality of second fixing member insertion holes 124, and a plurality of second engagements. A boss portion 125 may be included.

The second base part 121 may be provided in the form of a plate having an annular shape.

The second outer side wall portion 122 protrudes annularly from the outer edge of the annular shape of the second base portion 121, and may have a certain height.

The second inner side wall portion 123 protrudes annularly from the inner edge of the annular shape of the second base portion 121, and may have a predetermined height, the height of which is the same as the height of the second outer side wall portion 122. can be the same

A plurality of second fixing member insertion holes 124 are arranged spaced apart at regular intervals along the circumferential direction of the second base portion 121, and the second outer side wall portion 122 and the first inner side wall portion 113 It can be placed inside. For example, the plurality of second fixing member insertion holes 124 may be formed in a circular or elliptical shape.

The plurality of second engagement boss portions 125 may be disposed between the plurality of second fixing member insertion holes 124 .

The lower annular plate 120 is divided into 4 equal parts such that the plurality of second fixing member insertion holes 124 and the plurality of second engagement boss portions 125 are evenly divided while the length of the arc is the same. The unit plates 120a may be coupled in a dovetail coupling structure to form the annular shape of the lower annular plate 120 .

In addition, in order to dovetail-couple the second unit plates 120a, each second unit plate 120a has a trapezoidal second dovetail protrusion 126a formed at one end and a trapezoidal shape formed at the other end. Including the second dovetail groove 126b of , the second dovetail protrusion 126a and the second dovetail groove 126b may be connected by coupling.

Meanwhile, when the upper annular plate 110 and the lower annular plate 120 are coupled to each other, the plurality of first engagement boss portions 115 and the plurality of second engagement boss portions 125 may be engaged with each other. can have a structure with

In one embodiment, each of the first engagement boss portions 115 may include the first outer side wall portion 112 and the first inner side wall portion at respective positions arranged in the circumferential direction of the upper annular plate 110. It may be composed of a pair of first arcuate bosses 1151 respectively disposed in the (113) direction.

The pair of first arched bosses 1151 protrude in the protruding direction of the first outer side wall portion 112 and the first inner side wall portion 113 in a curved or non-curved arch shape, and a first pin is formed at the center. An insertion hole 1152 may be provided. For example, it may be formed in a non-curved arc shape including a first upper surface 1152a and first inclined side surfaces 1152b connected to both sides of the first upper surface 1152a in a width direction. In addition, the first upper surface 1152a of each of the pair of first arcuate bosses 1151 is the first inclined side surface 1152b at an end in a direction in which the pair of first arcuate bosses 1151 face each other. ) A first inclined surface 1152c inclined toward the end may be formed.

In one embodiment, each of the second engagement boss portions 125 corresponds to a gap between the pair of first arcuate bosses 1151 at respective positions arranged in the circumferential direction of the lower annular plate 120. It may be composed of a single second arcuate boss 1251 formed with a length of

The single second arched boss 1251 protrudes in the protruding direction of the second outer side wall portion 122 and the second inner side wall portion 123 in a curved or non-curved arch shape and inserts a second pin into the center. A hole 1252 may be provided. For example, it may be formed in a non-curved arc shape including a second upper surface 1252a and second inclined side surfaces 1252b connected to both sides of the second upper surface 1252a. In addition, second inclined surfaces 1252c inclined toward the ends of the second inclined side surfaces 1252b may be formed at both ends of the second upper surface 1252a in the longitudinal direction. In addition, the second pin insertion hole 1252 may be formed to be tapered such that a diameter decreases toward the second inner side wall portion 123 .

Meanwhile, the upper annular plate 110 may further include a first fixing member head accommodating hole 117 , and the lower annular plate 120 may further include a second fixing member head accommodating hole 127 .

When the first fixing member head receiving hole 117 is coupled to the lower annular plate 120, the first fixing member insertion hole 114 and the first fixing member insertion hole 114 face the second fixing member insertion hole 124. It may be formed between the engagement boss portions 115. The first fixing member head receiving hole 117 is inserted into the second fixing member insertion hole 124 so that the lower annular plate 120 is coupled to the concrete piles 10a and 10b, and the concrete pile 10a, It is possible to accommodate the head of a fixing member such as a screw or bolt coupled to 10b).

When the second fixing member head receiving hole 127 is coupled to the upper annular plate 110, the second fixing member insertion hole 124 and the second fixing member insertion hole 124 face the first fixing member insertion hole 114. It may be formed between the engagement boss portions 125 . The second fixing member head receiving hole 127 is inserted into the first fixing member insertion hole 114 so that the lower annular plate 120 is coupled to the concrete piles 10a and 10b, and the concrete pile 10a, It is possible to accommodate the head of a fixing member such as a screw or bolt coupled to 10b).

The plate fixing member 130 is for fixing the upper annular plate 110 and the lower annular plate 120, and fits together when the upper annular plate 110 and the lower annular plate 120 are coupled. The engagement may be fastened to the plurality of first engagement boss portions 115 and the second engagement boss portion 125 .

In one embodiment, the plate fixing member 130 may be composed of a pin having a length equal to or greater than the sum of the lengths of the pair of first arcuate bosses 1151 and the single second arcuate boss 1251. .

Hereinafter, a process of integrally connecting the first and second concrete piles 10b installed up and down using the concrete pile connecting device according to the first embodiment of the present invention to form a single body will be described.

First, since the upper annular plate 110 is composed of four first unit plates 110a, there is a gap between the first dovetail protrusion 116a and the first dovetail groove 116b of each first unit plate 110a. The assembly of the upper annular plate 110 is completed by connecting the four first unit plates 110a through coupling, and since the lower annular plate 120 is composed of four second unit plates 120a, each The assembly of the lower annular plate 120 is completed by connecting the four second unit plates 120a through the coupling between the second dovetail protrusion 126a and the second dovetail groove 126b of the two unit plates 120a. do.

Subsequently, the upper annular plate 110 is coupled to the end of the first concrete pile 10a, and the lower annular plate 120 is coupled to the opposite end of the second concrete pile 10b.

At this time, in the upper annular plate 110, the first base portion 111 is in close contact with the horizontal surface of the end of the first concrete pile 10a, and a bolt B is inserted into each first fixing member insertion hole 114. After that, the upper annular plate 110 can be combined with the first concrete pile 10a by coupling each bolt B to the first bolt holes (not shown) provided on the horizontal surface of the first concrete pile 10a. there is.

In addition, in the lower annular plate 120, the second base portion 121 is in close contact with the horizontal surface of the end of the second concrete pile 10b, and a bolt B is inserted into each second fixing member insertion hole 124. After that, each bolt B may be coupled to the second bolt holes 2 provided on the horizontal surface of the second concrete pile 10b to combine the lower annular plate 120 with the second concrete pile 10b. .

Subsequently, the upper annular plate 110 and the lower annular plate 120 are combined to connect the first concrete pile 10a and the second concrete pile 10b.

To this end, the upper annular plate 110 and the lower annular plate 110 are engaged with each of the first engagement boss portions 115 of the upper annular plate 110 and each of the second engagement boss portions 125 of the lower annular plate 120 are engaged with each other. The annular plates 120 correspond to each other.

At this time, the pair of first arcuate bosses 1151 are protruded toward the second arcuate boss 1251, and the protrusion direction of the second arcuate boss 1251 is the pair of first arcuate bosses 1151. ), the first pin insertion hole 1152 and the second pin insertion hole 1252 are positioned on the copper wire.

In this process, even if the first engagement boss portion 115 and the second engagement boss portion 125 are not accurately aligned up and down, each part of the first engagement boss portion 115 and the second engagement boss portion 125 The pair of first arcuate bosses 1151 and the second arcuate bosses 1251 can be easily fastened to each other simply by contacting each other.

For example, a part of the end of the second base portion 121 around the second arcuate boss 1251 is in contact with the first inclined side surfaces 1152b of the first arcuate boss 1151 or a pair of first arcuate bosses 1151. When a part of the end of the first base portion 111 around the boss 1151 is in contact with the second inclined side surfaces 1252b of the second arcuate boss 1251, the first inclined side surface 1152b or the second inclined side surface 1152b The second arcuate boss 1251 is guided between the pair of first arcuate bosses 1151 by the inclined side surfaces 1252b, so that the pair of first arcuate bosses 1151 and the second arcuate boss 1251 are easily They can be aligned and interlocked with each other.

Alternatively, the second upper surface 1252a of the second arcuate boss 1251 is in contact with the first inclined surface 1152c of each of the pair of first arcuate bosses 1151, or the second upper surface 1252a of the pair of first arcuate bosses 1151 When the first upper surface 1152a contacts the second inclined surface 1252c of the second arcuate boss 1251, the first inclined surface 1152c or the second inclined surface 1252c moves between the pair of first arcuate bosses 1151. The second arcuate boss 1251 is guided so that the pair of first and second arcuate bosses 1151 and 1251 can be easily aligned and engaged with each other.

In this way, when each of the first engagement boss portions 115 and each of the second engagement boss portions 125 are engaged so that the second arcuate bosses 1251 are engaged between the pair of first arcuate bosses 1151, the plate fixing member ( 130), that is, pins are inserted into the first pin insertion hole 1152 and the second pin insertion hole 1252 aligned on the copper wire as shown in FIG. 4 to form the first engagement boss portion 115 and the second engagement boss portion. The engaged state of (125) is fixed.

At this time, since the second pin insertion hole 1252 formed in the second arcuate boss 1251 is tapered to decrease in diameter in the direction of the second inner side wall portion 123, the pin is inserted into the second pin insertion hole 1252. , and the pins inserted into the first pin insertion hole 1152 and the second pin insertion hole 1252 may be supported on inner surfaces of the pair of first arcuate bosses 1151 .

In the concrete pile connection device according to the first embodiment of the present invention, the upper annular plate 110 and the lower annular plate 120 are divided into first unit plates 110a and second unit plates 120a. Since it is configured in a completed form, it has the advantage of being easy to store, transport and install.

In addition, when the upper annular plate 110 and the lower annular plate 120 are coupled to each other after being coupled to the concrete piles 10a and 10b, respectively, one of the first engagement boss portions 115 of the upper annular plate 110 The first inclined side surfaces 1152b formed on the pair of first arcuate bosses 1151 and the second inclined surface of the second arcuate boss 1251 of each of the first inclined surface 1152c and the second engaging boss portion 125 The side surfaces 1252b and the second inclined surface 1252c make it easy to align the first engagement boss portions 115 and the second engagement boss portions 125 to be engaged with each other, and accordingly, the upper annular plate 110 And since the plate fixing member 130 can be coupled after quickly contacting the lower annular plate 120 with each other, the coupling process between the upper annular plate 110 and the lower annular plate 120 can be accelerated.

In addition, after engaging the first engagement boss portion 115 of the upper annular plate 110 and the second engagement boss portion 125 of the lower annular plate 120, insert the plate fixing member 130, that is, the pin, in the lateral direction. Since it is a method of fixing, there is an advantage in that coupling between the upper annular plate 110 and the lower annular plate 120 becomes easy.

Second embodiment

6 is a view for explaining a concrete pile connecting device according to a second embodiment of the present invention, FIG. 7 is a view showing a first unit plate constituting the upper annular plate shown in FIG. 6, and FIG. It is a view showing the second unit plate constituting the lower annular plate shown in FIG. 6 .

6 to 8, the concrete pile connection device according to the second embodiment of the present invention may include an upper annular plate 210, a lower annular plate 220, and a plate fixing member 230.

The upper annular plate 210 has a first base portion 211, a first outer side wall portion 212, a first inner side wall portion 213, a plurality of first fixing member insertion holes 214, a plurality of first engagement It includes a boss portion 215 and a plurality of first fixing member head accommodating holes 217, the plurality of first fixing member insertion holes 214 having the same arc length, and the plurality of first engagement boss portions 215 The annular shape of the upper annular plate 210 is achieved by combining the first unit plates 210a divided into four quarters in a dovetail coupling structure to include a partial number of equally divided plurality of first fixing member head accommodating holes 217. It can be configured to achieve. To this end, a first dovetail protrusion 216a may be formed at one end of the first unit plate 210a and a first dovetail groove 216b may be formed at the other end of the first unit plate 210a.

The first base part 211, the first outer side wall part 212, the first inner side wall part 213, a plurality of first fixing member insertion holes 214, and the first fixing member head accommodating hole 217 ) is the first base portion 211, the first outer side wall portion 212, the first inner side wall portion 213, a plurality of first fixing member insertion holes of the concrete pile device according to the first embodiment of the present invention ( 214), the same as or similar to the first fixing member head accommodating hole 117, so a duplicate description thereof will be omitted.

The plurality of first engagement boss portions 215 may include a pair of first arcuate bosses 2151 . The pair of first arcuate bosses 2151 protrude in the protruding direction of the first outer side wall portion 212 and the first inner side wall portion 213 in the form of a semicircular or elliptical curved arch, and the first arcuate boss 2151 protrudes from the center thereof. A pin insertion hole 2152 may be provided. For example, the pair of first arcuate bosses 2151 may be formed in a semicircular curved arch shape.

In addition, each of the pair of first arcuate bosses 2151 may have a first inclined surface 2151a inclined toward an upper end of the first arcuate boss 2151 at an end portion facing each other.

The lower annular plate 220 includes a second base portion 221, a second outer side wall portion 222, a second inner side wall portion 223, a plurality of second fixing member insertion holes 224, and a plurality of second engagements. It includes a boss portion 225, and the length of the arc is the same, and the plurality of second fixing member insertion holes 224 and the plurality of second engagement boss portions 225 are equally divided to include a partial number divided into four parts. The two unit plates 220a may be coupled in a dovetail coupling structure to form the annular shape of the lower annular plate 220 .

The second base portion 221, the second outer side wall portion 222, the second inner side wall portion 223, and a plurality of second fixing member insertion holes 224 according to the first embodiment of the present invention Since the second base part 221, the second outer side wall part 222, the second inner side wall part 223, and the plurality of second fixing member insertion holes 224 of the concrete pile device are the same or similar, duplicated Description is omitted.

Each of the second engagement boss portions 225 may be configured as a second arcuate boss 2251 . The second arched boss 2251 protrudes in the protruding direction of the second outer side wall portion 222 and the second inner side wall portion 223 in the form of a semicircular or elliptical curved arch, and has a second pin insertion hole at the center thereof. (2252). For example, the second arched boss 2251 may be formed in a curved arch shape that is curved in a semicircular shape.

In addition, the single second arcuate boss 2251 may be formed with second inclined surfaces 2251a inclined toward the upper end of the second arcuate boss 2251 at both ends in the longitudinal direction, and the second pin The insertion hole 2252 may be formed to be tapered so that its diameter decreases in the direction of the second inner wall portion 223 .

The plate fixing member 230 is for fixing the upper annular plate 210 and the lower annular plate 220, and fits together when the upper annular plate 210 and the lower annular plate 220 are coupled. The engagement may be fastened to the plurality of first engagement boss parts 215 and the second engagement boss part 225 .

In one embodiment, the plate fixing member 230 may be composed of screws or bolts having a length equal to or greater than the sum of the lengths of the pair of first arcuate bosses 2151 and the single second arcuate boss 2251. can

The process of integrally connecting the first and second concrete piles 10a and 10b to form a single body using the concrete pile connecting device according to the second embodiment of the present invention Since it is the same as the process of integrally connecting the first and second concrete piles 10a and 10b, which are installed up and down, described in the concrete pile connection device according to the first embodiment to form one body, redundant description thereof will be omitted.

The concrete pile connecting device according to the second embodiment of the present invention includes a pair of first arched bosses 2151 of the first engagement boss portion 215 and a second arched boss 2251 of the second engagement boss portion 225 is formed in a curved arc shape, the pair of first arcuate bosses 2151 have the first inclined surface 2151a formed therein, and the second arcuate boss 2251 has the second inclined surface 2251a formed therein. Therefore, even if the first engagement boss portion 215 and the second engagement boss portion 225 are not accurately aligned up and down, the concrete pile connecting device according to the second embodiment of the present invention is also connected to the first engagement boss portion 215. The pair of first arcuate bosses 2151 and the second arcuate bosses 2251 can be easily fastened to each other as long as parts of each of the two engagement boss portions 225 come into contact with each other.

In addition, the concrete pile connection device according to the second embodiment of the present invention can achieve the same effect as the concrete pile connection device according to the first embodiment of the present invention.

Third embodiment

9 is a perspective view for explaining a concrete pile connection device according to a third embodiment of the present invention, FIG. 10 is a view showing an upper annular plate shown in FIG. 9, and FIG. 11 is a lower annular plate shown in FIG. 12 is a view showing a first unit plate constituting the upper annular plate shown in FIG. 9, and FIG. 13 is a view showing a second unit plate constituting the lower annular plate shown in FIG. FIG. 14 is a partially enlarged cross-sectional view illustrating a state in which the first engagement boss portion and the second engagement boss portion shown in FIGS. 12 and 13 are engaged.

9 to 13, the concrete pile connection device according to the third embodiment of the present invention may include an upper annular plate 310, a lower annular plate 320, and a plate fixing member 330.

The upper annular plate 310 includes a first base portion 311, a first outer side wall portion 312, a first inner side wall portion 313, a plurality of first fixing member insertion holes 314, a plurality of first engagement It includes a rib boss portion 315, and the number of first fixing member insertion holes 314 having the same arc length and the number of parts obtained by equally dividing the plurality of first engaging rib boss portions 315 are divided into 4 equal parts. The unit plates 310a may be coupled in a dovetail coupling structure to form the annular shape of the upper annular plate 310 .

The first base portion 311, the first outer side wall portion 312, the first inner side wall portion 313, and the plurality of first fixing member insertion holes 314 are according to the first embodiment of the present invention. Since the first base portion 311, the first outer side wall portion 312, the first inner side wall portion 313, and the plurality of first fixing member insertion holes 314 of the concrete pile device are the same or similar, duplicated Description is omitted.

The plurality of first engagement boss portions 315 may include first plate-shaped bosses 3151 disposed close to the first outer side wall portion 312 . The first plate-shaped boss 3151 has a trapezoidal shape, protrudes in the protruding direction of the first outer side wall portion 312 and the first inner side wall portion 313, and has a first pin insertion hole 3152 at the center thereof. can do.

The lower annular plate 320 includes a second base portion 321, a second outer side wall portion 322, a second inner side wall portion 323, a plurality of second fixing member insertion holes 324, a plurality of second engagement It includes a rib boss portion 325, and the plurality of second fixing member insertion holes 324 and the plurality of second engagement boss portions 325 are equally divided while the length of the arc is the same. The two unit plates 320a may be coupled in a dovetail coupling structure to form the annular shape of the lower annular plate 320 .

The second base part 321, the second outer side wall part 322, the second inner side wall part 323, and the plurality of second fixing member insertion holes 324 are according to the first embodiment of the present invention. Since the second base part 321, the second outer side wall part 322, the second inner side wall part 323, and the plurality of second fixing member insertion holes 324 of the concrete pile device are the same or similar, duplicated Description will be omitted.

The second engaging boss portion 325 may be formed of a second plate-shaped boss 3251 spaced apart from the second outer side wall portion 322 at a distance equal to or greater than the thickness of the first plate-shaped boss 3151. there is. The second plate-shaped boss 3251 has a trapezoidal shape, protrudes in the protruding direction of the second outer side wall portion 322 and the second inner side wall portion 323, and has a second pin insertion hole 3252 at the center thereof. can do.

Meanwhile, in the first outer side wall portion 312, a first fixing member head receiving groove 317 disposed to face the first pin insertion hole 3152 may be arranged in a circumferential direction, and In the side wall portion 322 , a second fixing member head receiving groove 327 disposed to face the second pin insertion hole 3252 may be arranged in a circumferential direction.

The plate fixing member 330 is for fixing the upper annular plate 310 and the lower annular plate 320, and is engaged with each other when the upper annular plate 310 and the lower annular plate 320 are coupled. It may be fastened to the plurality of first engagement boss parts 315 and the second engagement boss part 325 .

In one embodiment, the plate fixing member 330 is in the form of a bolt or screw having a length greater than or equal to the sum of the lengths of the pair of first plate-type bosses 3151 and the single second plate-type boss 3251. can be provided with

Hereinafter, a process of integrally connecting the first and second concrete piles 10a and 10b to form a single body using the concrete pile connecting device according to the third embodiment of the present invention will be described. .

First, the upper annular plate 310 is completed by assembling four first unit plates 310a, and the lower annular plate 320 is completed by assembling four second unit plates 320a. Since it is the same as the concrete pile connection device according to the first embodiment of the invention, duplicate descriptions will be omitted.

Subsequently, the upper annular plate 310 is coupled to the end of the first concrete pile 10a, and the lower annular plate 320 is coupled to the opposite end of the second concrete pile 10b. This process is the same as the concrete pile connecting device according to the first embodiment of the present invention, so duplicate descriptions will be omitted.

Subsequently, the upper annular plate 310 and the lower annular plate 320 are combined to connect the first concrete pile 10a and the second concrete pile 10b.

To this end, the upper annular plate ( 310) and the lower annular plate 320 correspond to each other.

At this time, the protrusion direction of the first plate-type boss 3151 is toward the second plate-type boss 3251, and the protrusion direction of the second plate-type boss 3251 is the first plate-type boss 3151. The respective first fixing member head accommodating grooves 317, the respective second fixing member head accommodating grooves 327, the respective first pin insertion holes 3152, and the respective The second pin insertion hole 3252 of is coaxially aligned.

In this state, the plate fixing member 330 is inserted into the aligned first and second fixing member head receiving grooves 327 and the first and second pin insertion holes 3252 and coupled thereto. At this time, the plate fixing member 330 is screwed into the second pin insertion hole 3252.

In the concrete pile connection device according to the first embodiment of the present invention, the upper annular plate 310 and the lower annular plate 320 are divided into first unit plates 310a and second unit plates 320a, which are assembled. Since it is configured in a completed form, it has the advantage of being easy to store, transport and install.

In addition, after the first engagement boss portion 315 of the upper annular plate 310 and the second engagement boss portion 325 of the lower annular plate 320 are engaged, the plate coupling member 330 is inserted in the side direction and screwed together. Since it is a method, there is an advantage in that coupling between the upper annular plate 310 and the lower annular plate 320 becomes easy.

On the other hand, on the surface of the upper annular plate (110, 210, 310) and the lower annular plate (120, 220, 320) of the concrete pile connecting device according to embodiments of the present invention, the antifouling coating composition to improve contamination resistance A stain resistant coating layer made of may be applied.

The stain-resistant coating composition contains sulfolaurate and cocamidopropyl betaine in a molar ratio of 1:0.01 to 1:2, and the total content of sulfolaurate and cocamidopropyl betaine is 1 to 10% by weight based on the total aqueous solution. am.

The molar ratio of sulfolaurate and cocamidopropyl betaine is preferably 1:0.01 to 1:2. 320), there is a problem in that the coatability of the upper layer is lowered or the coating film is removed due to increased moisture adsorption on the surface after coating.

The sulfolaurate and cocamidopropyl betaine are preferably 1 to 10% by weight of the total aqueous solution of the composition. There is a problem that the coating property is lowered, and when it exceeds 10% by weight, crystal precipitation is likely to occur due to an increase in the thickness of the coating film.

Meanwhile, as a method of applying the stain-resistant coating composition on the upper annular plates 110, 210, and 310 and the lower annular plates 120, 220, and 320, it is preferable to apply by a spray method. In addition, the final coating film thickness on the upper annular plates 110, 210, and 310 and the lower annular plates 120, 220, and 320 is preferably 900 to 2300 Å. If the thickness of the coating film is less than 900 Å, there is a problem of deterioration in the case of high-temperature heat treatment, and if it exceeds 2300 Å, there is a disadvantage in that crystallization of the coated surface is easy to occur.

In addition, the stain-resistant coating composition may be prepared by adding 0.1 mol of sulfolaurate and 0.05 mol of cocamidopropyl betaine to 1000 ml of distilled water, followed by stirring.

The reason why the ratio of the constituent components and the thickness of the coating film were numerically limited as described above was that the present inventors showed the optimal antifouling coating effect at the ratio as a result of analyzing the test results while repeating several failures.

Meanwhile, a coating layer may be formed on the surfaces of the plate fixing members 130, 230, and 330 of the concrete pile connecting device according to embodiments of the present invention to improve weather resistance and wear resistance.

The coating material of this coating layer is octafluoropentyl glycidyl ether 22% by weight, diethanolamine 17% by weight, hafnium 13% by weight, organic acid magnesium 17% by weight, titanium oxide (TiO ₂ ) 9% by weight, aluminum oxide ( It is composed of 10% by weight of AIO ₂ ) and 12% by weight of Cremophor EL, and the coating thickness can be formed to 9㎛.

Octafluoropentyl glycidyl ether and diethanolamine serve to prevent corrosion, weather resistance, discoloration, etc., and hafnium is a transition metal element with wear resistance and weather resistance, and serves to have excellent waterproof and corrosion resistance.

Organic acid magnesium serves to impart alkali resistance and wettability to the surface of the coating film, Cremophor EL serves as a surface activity, and titanium oxide and aluminum oxide are added for the purpose of fire resistance and chemical stability.

The reason for limiting the ratio of the components and the coating thickness as described above is that the present inventors have repeatedly failed and analyzed the test results. As a result, the optimal weather resistance and wear resistance improvement effect was shown at the ratio.

The description of the presented embodiments is provided to enable any person skilled in the art to use or practice the present invention. Various modifications to these embodiments will be apparent to those skilled in the art, and the general principles defined herein may be applied to other embodiments without departing from the scope of the present invention. Thus, the present invention is not to be limited to the embodiments presented herein, but is to be construed in the widest scope consistent with the principles and novel features presented herein.

110, 120, 330: upper annular plate
120, 220, 320: lower annular plate
130, 230, 330: plate fixing member

Claims (4)

A first base portion 111, 211, 311 having an annular shape, a first outer side wall portion 112, 212, 312 protruding annularly from an outer edge of the first base portion 111, 211, 311, The first inner side wall parts 113, 213, 313 protruding annularly from the inner edges of the first base parts 111, 211, 311 along the circumferential direction of the first base parts 111, 211, 311. A plurality of first fixing member insertion holes 114, 214 arranged spaced apart at regular intervals and disposed inside the first outer side wall portions 112, 212, and 312 and the first inner side wall portions 113, 212, and 312 , 314), an upper annular plate (110, 210) including a plurality of first engagement boss portions (115, 215, 315) disposed between the plurality of first fixing member insertion holes (114, 214, 314) , 310);
Second base parts 121, 221, 321 having an annular shape, second outer side wall parts 122, 222, 322 protruding annularly from the outer edges of the first base parts 111, 211, 311, The second inner wall parts 123, 223, 323 protruding annularly from the inner edges of the second base parts 121, 221, 321 along the circumferential direction of the second base parts 121, 221, 321. A plurality of second fixing member insertion holes (124, 224) arranged spaced apart at regular intervals and disposed inside the second outer side wall portions (122, 222, 322) and the second inner side wall portions (123, 223, 323) , 324), the lower annular plate 120, 220 including a plurality of second engagement boss portions 125, 225, 325 disposed between the plurality of second fixing member insertion holes 124, 224, 324 , 320); and
When the upper annular plate 110, 210, 310 and the lower annular plate 120, 220, 320 are coupled, the plurality of first engagement boss portions 115, 215, 315 and the second engagement boss portions 115, 215, 315 are engaged with each other. Includes plate fixing members 130, 230, 330 fastened to the boss portions 125, 225, 325,
The upper annular plate (110, 210, 310) has the same arc length and the plurality of first fixing member insertion holes (114, 214, 314) and the plurality of first engagement boss portions (115, 215, 315) The first unit plates 110a, 210a, and 310a, which are divided into 4 equal parts, are combined in a dovetail coupling structure to form the annular shape of the upper annular plate 110, 210, 310,
The lower annular plate (120, 220, 320) has the same arc length and the plurality of second fixing member insertion holes (124, 224, 324) and the plurality of second engagement boss portions (125, 225, 325) The second unit plates 120a, 220a, and 320a, which are divided into 4 equal parts, are coupled in a dovetail coupling structure to form the annular shape of the lower annular plate 120, 220, 320;
When the upper annular plates 110 and 220 are combined with the lower annular plates 120 and 220, the first fixing member insertion holes 114 and 214 face the second fixing member insertion holes 124 and 224 and first fixing member head receiving holes 117 and 217 formed between the first engagement boss portions 115 and 215,
When the lower annular plates 120 and 220 are combined with the upper annular plates 110 and 210, the second fixing member insertion holes 124 and 224 face the first fixing member insertion holes 114 and 214 and second fixing member head receiving holes 127 and 227 formed between the second engagement boss portions 125 and 225,
The first engagement boss portions 115 and 215 are arranged in the circumferential direction of the upper annular plate 110 and 210 at respective positions of the first outer side wall portions 112 and 212 and the first inner side wall portion ( It consists of a pair of first arcuate bosses 1151 and 2151 disposed in the directions of 113 and 213, respectively,
The second engagement boss portions 125 and 225 correspond to the spacing between the pair of first arcuate bosses 1151 and 2151 at respective positions arranged in the circumferential direction of the lower annular plates 120 and 220. It is composed of a single second arcuate boss (1251, 2251) formed in length,
Each of the pair of first arched bosses 1151 and 2151 has a curved or non-curved arch shape, and the protruding direction of the first outer side wall portions 112 and 212 and the first inner side wall portions 113 and 213 It protrudes into and has a first pin insertion hole (1152, 2152) in the center,
The single second arched bosses 1251 and 2251 protrude in the protruding direction of the second outer side wall portions 122 and 222 and the second inner side wall portions 123 and 223 in a curved or non-curved arch shape. and has second pin insertion holes 1252 and 2252 in the center,
The plate fixing members 130 and 230 are composed of pins having a length greater than or equal to the sum of the lengths of the pair of first arcuate bosses 1151 and 2151 and the single second arcuate bosses 1251 and 2251,
When the upper annular plates 110 and 210 and the lower annular plates 120 and 220 are coupled, the pair of first arcuate bosses 1151 and 2151 have a protruding direction that is different from that of the second arcuate bosses 1251 and 2251. ) and the second arcuate bosses 1251 and 2251 are engaged so that their protruding directions are directed toward the pair of first arcuate bosses 1151 and 2151, thereby forming the first pin insertion holes 1152 and 2152 and the second arcuate bosses 1152 and 2152. With the pin insertion holes 1252 and 2252 positioned on the copper wire, the pins are inserted into the first pin insertion holes 1152 and 2152 and the second pin insertion holes 1252 and 2252, so that the pins are one pair of Characterized in that it is supported on the inner surface of the first arcuate boss (1151, 2151) of
Concrete pile connector. delete According to claim 1,
Each of the first unit plates 110a and 210a includes trapezoidal first dovetail protrusions 116a and 216a formed at one end and trapezoidal first dovetail grooves 116b and 216b formed at the other end. is connected by coupling between the first dovetail protrusions 116a and 216a and the first dovetail grooves 116b and 216b,
Each of the second unit plates 120a and 220a includes trapezoidal second dovetail protrusions 126a and 226a formed at one end and trapezoidal second dovetail grooves 126b and 226b formed at the other end. is connected by coupling between the second dovetail protrusions 126a and 226a and the second dovetail grooves 126b and 226b,
The pair of first arcuate bosses 1151 have a non-curved arc shape including a first upper surface 1152a and first inclined side surfaces 1152b connected to both sides of the first upper surface 1152a in the width direction. is formed,
The single second arched boss 1251 is formed in a non-curved arc shape including a second upper surface 1252a and second inclined side surfaces 1252b connected to both sides of the second upper surface 1252a,
The first upper surface 1152a of each of the pair of first arcuate bosses 1151 is formed at an end portion in a direction in which the pair of first arcuate bosses 1151 face each other of the first inclined side surface 1152b. A first inclined surface 1152c inclined toward the end is formed,
A second inclined surface 1252c inclined toward the end of the second inclined side surface 1252b is formed at both ends of the second upper surface 1252a in the longitudinal direction,
The second pin insertion hole 1252 is formed to be tapered so that the diameter decreases toward the second inner side wall portion 123,
Concrete pile connector. According to claim 1,
The pair of first arcuate bosses 2151 and the second arcuate bosses 2251 are formed in a semicircular or elliptical curved arch shape,
Each of the pair of first arcuate bosses 2151 has a first inclined surface 2151a inclined toward the upper end of the first arcuate boss 2151 at an end in a direction facing each other,
The single second arcuate boss 2251 is formed with a second inclined surface 2251a inclined toward the upper end of the second arcuate boss 2251 at both ends in the longitudinal direction,
The second pin insertion hole 1252 is formed to be tapered so that the diameter decreases in the direction of the second inner side wall portion 123,
Concrete pile connector.

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