KR20120117094A - Beginning phase structure of the electric pole composed of a tension plate and a support plate and method making the electric pole therewith - Google Patents

Abstract

PURPOSE: An assembly columniation structure with a columniation tension plate and a columniation support plate separated from each other and a method for manufacturing a concrete pole with the same are provided to sufficiently support the power of a tension bar and supply easy assembly and separation. CONSTITUTION: A combination fixing unit(952), a pressing unit(960), a vertical insertion unit(962), a mortar adhesion unit(964), and an inner vertical unit(966) are formed on a columniation tension plate in order. A tension bolt insertion groove(954) is formed on the combination fixing unit. The vertical insertion unit is inserted into a large hollow hole of a columniation support plate(900A). The columniation support plate is fixed to a support flange(A) by a fixing bolt(924). The columniation support plate is strongly fixed with the power of a tension bar(64).

Description

Beginning phase structure of the electric pole composed of a tension plate and a support plate and method making the electric pole therewith}

The present invention relates to a prefabricated structure of a structure, and a method for manufacturing a concrete pole using the same, and a circular plate and a plate support plate divided by two weights while dividing into two spheres and a plate support plate. The assembly and disassembly work is easy to handle, and the assembly and disassembly structure also supports the tensile strength of the tensile muscles and is easy to assemble and disassemble. The work is easy to install and demoulding the mold efficiently.

Particularly, since the shape of the pressing surface of the spherical support plate 900A and the pressing portion of the spherical tension plate assembled and supported thereon are all closed, the assembly structure is not only stable to support the strong tensile force by the tensile muscles, but also the tensile muscles. Installation of the mold and assembly and disassembly of the mold can be performed efficiently.

As described above, the present invention is simple in structure and easy to handle by dividing its weight so that the assembly and disassembly work is efficient and the assembly structure is stable.

Patent No. 10-0766425 (hereinafter referred to as Prior Art-1) is shown in FIG. 1 as a prior art of a manufacturing apparatus for concrete pole. 1 is a device for manufacturing a concrete pole having a hollow part by putting concrete mortar in a state in which a tensile force is applied to a tensile muscle 64 disposed in a mold and applying a centrifugal force.

More specifically, one end of the tension root 64 is fixed to the disk plate 30, the other end is fixed to the horse plate. Tensile force is applied to the tension root 64 by tensioning the horse plate 40. The horse plate 40 is connected to the connection ring 200, the connection ring 200 is again connected to the tension axis (50). The tension shaft 50 is connected to a tensioning device having a hydraulic system.

Jeonju produced by centrifugal force undergoes curing and demoulding to complete Jeonju.

By the way, the circular structure of FIG. 1 is composed of a flange plate (A) of the circular mold and a single circular plate 30, while the flange (A) and the circular plate 30 of the mold are assembled and fixed by fastening bolts.

One end of the tension root 64 is fixed to the spherical plate 30. The other end of the tension root 64 is fixed to the horse plate 40.

In FIG. 1, the fastening bolt for assembling and fixing the mold flange A and the one-piece disk 30 is not shown. Usually, the mold flange A and the spherical plate 30 are assembled and fixed by fastening bolts. This is to facilitate the dismantling of the original plate 30 in the mold flange (A) when demolding.

Since the original plate 30 of FIG. 1 is subjected to centrifugal force while fixing the tensile muscle 64 to which the tensile force is applied, the weight of the original plate 30 is usually 40 kg or more.

Lifting or disassembling and re-mounting the disc 30 or more than 30kg in order to assemble to the mold flange (A) is generally a work-dependent work, so the workability is significantly reduced due to its weight There is this.

Since dozens of molds are usually operated at once, the larger the number of molds, the lower the workability due to the weight of the disk 30.

In addition, the tension root 64 fixed to the disk plate 30 should be in line with the insertion groove of the disk plate 30. This is because when the tension root 64 has a very small inclination angle that is not in alignment with the insertion groove, a loss of tensile force occurs due to the frictional force caused by the tension force applied to the tension root 64.

It is also not easy to insert the tension root 64 into the insertion groove of the spherical plate 30 while the spherical plate 30 is assembled and fixed with the mold flange A. FIG.

Next, Patent No. 10-0376818 (hereinafter referred to as Prior Art-2) is shown in FIG.

Fig. 2 is also assembled and fixed to the spherical plate 30 by fastening bolts to the mold flange A as shown in Fig. 1 while having the original spherical plate 30 as shown in Fig. 1. 1 and the only difference is that the spherical tension plate 32 is added to the spherical plate 30 separately.

Therefore, since the weight of the disk 30 is 40kg or more, as in the salping bar in Figure 2, the problem of Figure 2 is the same as the problem of Figure 1 has.

However, FIG. 2 is a problem because the spherical tension plate 32 is added separately, which is more heavy and the insertion of the tensile muscle 64 becomes more difficult.

⒜ The present invention is not only easy to handle assembling and disassembling work by dividing weight, but divided into two spherical tension plate and disc support plate. Its purpose is to make it easy to install and disassemble mold by installing tension roots on the spherical tension plate and assembling and disassembling the mold by supporting the tensile force sufficiently and making it easy to assemble and disassemble.

형성 The pressing surface of the spherical support plate and the pressing part of the spherical tension plate supported thereon are formed in a closed circular shape so that even if a strong tensile force is applied to the pressing part of the spherical tension plate, Another purpose is to be stably supported by the assembly structure of the face.

The basic concept of applying a tensile force to the tensile muscles using a sphere and a horse sphere, and manufacturing a concrete pole by centrifugal force is the same as the present invention or the prior art-1, -2.

However, the wording on the tensile side of the present invention is a structure in which only the structure of the original ball on the fixed side is prefabricated while using the prior art as it is.

More specifically, the prefabricated structure of the spherical plate and disc support plate of the present invention is divided into the original spherical plate and the disc support plate divided into two, the weight is also divided, the assembly and disassembly structure It is also a prefabricated sphere structure made simple and easy.

As described above, the present invention improves only the structure of the spherical side (fixed side), and thus is the same as that of the prior arts 1 and 2 except for the spherical side structure. Accordingly, the drawings and the reference numerals of the molds, the horseshoe side, the tensile muscles, etc. of the prior arts 1 and 2 will be used as they are for convenience of description.

In the present invention, the tension root 64 is disposed in the mold 20 in which the spherical side support flange A and the spherical side support flange B are formed, and one end of the tension root 64 is fixed to the spherical side, The other end of the tension root 64 is tensioned by the tension shaft 50 connected to the connection ring 200 in a state fixed to the horse plate 40, and filled with concrete mortar in the mold 20 centrifugal force to the mold 20 In the production apparatus for manufacturing concrete pole by adding

The ball support plate (900A) having a public ball 910 and the ball holder plate (900B) having a small hollow portion 950 is divided into a structure of the ball support plate (900A) consists of a lower and a top, and the support plate (900A) The lower portion is formed of the flange contact surface 912 which is in contact with the spherical side support flange (A) and the edge fixed support jaw 914 and the mortar contact surface 916 along the interface of the mold 20, A fastening surface 920 having a bolt insertion groove 922, an inclined surface 932, a pressing surface 930, and a vertical surface 934 are sequentially formed on the upper portion of the supporting plate 900A. The spherical tension plate (900B) is inserted into the public study 910 of the) is a fastening fastening portion 952, the pressing portion 960, the vertical inserting portion 962 and the mortar contact portion formed with a tension bolt insertion groove 954 964 and the inner vertical portion 966 are sequentially formed, and fixed to the support flange (A) by the fixing bolt 924 While inserting and assembling the vertical inserting portion 962 of the spherical tension plate 900B in the mass study of the fingerboard 900A, the fixation of the spherical tension plate 900B is firmly fixed by the tension force of the tension root 64. It is a prefabricated sphere structure, which is divided into a sphere tension plate and a sphere support plate.

Conventionally, since the structure is divided into a one-piece body weight plate is divided into a sphere support plate (900A) having a mass study 910 and a sphere tension plate (900B) having a small hollow portion 950, the weight is shared, easy to handle and disassemble Not only the work is easy but also the insertion of the tension root 64 is easy to manufacture the work of the pole.

The assembly structure divided into the sphere support plate 900A and the sphere tension plate 900B is stable.

This will be described in more detail as follows.

Since the mortar contact surface 916 of the spherical support plate 900A is in close contact and contact with the spherical side support flange A, fixing between the spherical support plate 900A and the support flange A is firm and stable.

In addition, since the edge fixing support jaw 914 is supported on the interface of the mold 20, the support flange A of the mold 20 and the spherical support plate 900A are stable.

The pressing surface 930 of the spherical support plate 900A has a closed circular shape as shown in FIG. In addition, the pressing portion 960 of the spherical tension plate 900B that is supported on it is also a closed circular shape.

As described above, since the shape of the pressing surface 930 of the circular support plate 900A and the pressing portion 960 of the circular tensile plate 900B supported thereon are closed, the pressing portion of the circular tensile plate 900B ( The strong tensile force by the tension root 64 applied to the 960 is sufficiently and stably supported by the assembly structure of the pressing portion 960 and the pressing surface 930.

In addition, although the tension bolt 700A may be used, the inclination of the pole is usually 1/75, so it is advantageous to use the tension hinge bolt 700.

The tension bolt 700A may use what is described in Korean Patent No. 10-0970674. (See Fig. 3)

If the reference numeral of FIG. 3 is used as it is, the configuration of the tension bolt 700A is as follows.

The tensioning bolt 700A is composed of an insertion and fastening portion 740A having a head portion 720A, an insertion portion 730A, and a spiral portion 750A, and the spiral portion 920 of the tension root 900 is tensioned. It is a structure inserted into the spiral part 750A of the bolt 700A. The length S of the spiral portion 750A of the tension bolt 700A is equal to the length of the spiral portion 920 of the tensile muscle 900.

The tension hinge bolt 700 is shown in FIGS. 4 and 5.

The tension hinge bolt 700 is the same as the tension bolt 700A, except that the head portion 710 has a hinge portion 720 and the insertion portion 730 having an inclined surface is different. The spiral portion is formed inside the insertion portion 730. The spiral portion of the insertion portion 730 and the spiral portion 64a of the tensile muscle 64 are coupled to each other.

The hinge portion 720 of the tension hinge bolt 700 corresponds to the hinge groove 956 formed in the tension bolt insertion groove 954 of the spherical tension plate (900B) (see Figs. 4 and 5).

The hinge portion 720 of the tension hinge bolt 700 and the hinge groove 956 corresponding thereto will be described in detail as follows.

Since the pole and the horse are different in diameter, the inclination of the pole is inclined to 1/75 with respect to the axis of rotation. Tensile muscles (64) in the reinforcement is also inclined state in order to match the direction of the inclined tensile muscles 64, the hinge portion 720 of the tension hinge bolt 700 and the corresponding spherical tension plate (900B) The hinge bolt 956 is formed in the tension bolt insertion groove 954. When the direction of the tension bolt insertion groove 954 of the spherical tension plate 900B coincides with the inclination direction of the tension muscle 64, there is no loss of the tensile force added to the tension muscle 64.

In other words, when the direction of the tension hinge bolt 700 inserted into the tension bolt insertion groove 954 of the spherical tension plate 900B coincides with the inclination direction of the tension muscle 64, the tensile force added to the tension muscle 64 becomes The friction does not cause a loss.

Therefore, it is preferable to form the tension bolt insertion groove 954 of the spherical tension plate 900B to match the inclination of the tension root 64. It is structurally advantageous because the tensile force loss of the tensile muscle 64 due to the frictional force is minimized.

However, even if the tension bolt insertion groove 954 of the spherical tension plate 900B matches the inclination of the tension root 64, there will always be an error.

Measures for overcoming this error are the hinge portion 720 and the hinge groove 956. By adjusting the hinge portion 720 and the hinge groove 956, the tension hinge bolt 700 is matched with the inclination of the tensile muscle 64. The diameter of the tension bolt insertion groove 954 of the spherical tension plate 900B is 1 to 2 mm larger than the diameter of the tension hinge bolt 700. Because of this margin, fine adjustment by the hinge portion 720 and the hinge groove 956 is accommodated.

On the other hand, when the small hollow portion 950 of the spherical tension plate 900B is blocked by the blocking plate 970, the concrete mortar inside the mold 20 due to the centrifugal force is prevented from popping out of the mold 20.

Since the blocking plate 970 prevents the release of the concrete mortar, the thickness thereof may be thin.

The fixing of the blocking plate 970 is preferably fixed to the welding 972 to meet the inner vertical portion 966 while forming a straight line with the mortar contact portion 964. It is advantageous to drill a small circular hole in the center of the blocking plate 970. To vent through a circular hole. 80-100 mm is sufficient as the diameter of the circular hole 970a normally.

The circular hole 970a of the blocking plate 970 is an inflow path where steam enters the inside of the hollow during steam curing, so that the steam contact is even, thereby improving curing quality of concrete poles and shortening curing time. .

⒜ The present invention is divided into two circular tension plate and circular support plate, unlike the conventional circular plate, which is easy to handle the assembly and disassembly work by the divided weight, and also the assembly and disassembly structure It is easy to assemble and dismantle while sufficiently supporting the tensile force of the muscle, and it is easy to install the tensile muscle on the spherical tension plate and to assemble and disassemble the mold, so that the mold can be efficiently installed and demolded.

이므로 Since the shape of the pressing plate of the base support plate) and the pressing part of the circular tension plate supported thereon are all closed, the strong tensile force applied by the tension root applied to the pressing portion of the circular tension plate is applied. There is an effect that the assembly structure is sufficiently and stably supported.

소 Because the small hollow part of the spherical plate is blocked with a blocking plate, it prevents concrete mortar from popping out of the mold due to centrifugal force.

손실 Loss of tensile strength due to friction because the tension bolt insertion groove of the spherical tension plate not only coincides with the inclination of the tension muscle but also the micro error is adjusted by the hinge portion of the tension hinge bolt and the corresponding hinge groove. This is a useful invention with the effect of being minimized.

1 is a cross-sectional view and a partially enlarged view showing the configuration of a conventional pole production apparatus (screw part)
2 is a cross-sectional view and a partially enlarged view showing the configuration of a conventional pole production apparatus
3 is a perspective view of the tension bolt 700A
Figure 4 is an exploded perspective view of the prefabricated structure of the structure of the present invention the spherical tensile plate and the support plate divided
Figure 5 is a cross-sectional view of the prefabricated structure of the structure of the present invention the spherical tension plate and the support plate

Referring to the concrete pole manufacturing method using a prefabricated sphere structure divided by a spherical plate and a sphere support plate of the present invention in detail as follows.

In the present invention, the tension root 64 is disposed in the mold 20 in which the spherical side support flange A and the spherical side support flange B are formed, and one end of the tension root 64 is fixed to the spherical side, The other end of the tension root 64 is tensioned by the tension shaft 50 connected to the connection ring 200 in a state fixed to the horse plate 40, and filled with concrete mortar in the mold 20 centrifugal force to the mold 20 In the manufacturing method of manufacturing concrete pole by adding

원 inserting the support plate 900A so that the edge fixing support jaw 914 is supported on the boundary surface of the mold 20, wherein the flange contact surface 912 of the support plate 900A is the support flange of the mold 20 After the bolt insertion groove 922 of the fastening surface 920 coincides with the bolt insertion groove 922 of the support flange A in a state of being in contact with A), the fixing bolt 924 to the bolt insertion groove 922. Inserting the pin support plate (900A) firmly fixed to the support flange (A);

끝 One end of the tension root 64 is attached to the end plate 40 and tensioned in the state where the tension root 64 is disposed between the spherical side support flange A and the spherical side support flange B in the mold 20. The other end of the root 64 is fixed by the tension hinge bolt 700 inserted into the tension bolt insertion groove 954 of the spherical tension plate 900B having a hinge groove 956 of the spherical tension plate 900B. The vertical inserting portion 962 is inserted and assembled into the spherical support plate 900A so that the pressing portion 960 of the spherical tension plate 900B is firmly supported and fixed on the pressing surface 930 of the spherical support plate 900A;

(B) imparting tensile force to the tension roots 64 by a known connection ring 200 which simultaneously connects the horseboard 40 and the tension shaft 50, and then injects concrete mortar into the mold 20;

⒟ forming a concrete pole by applying centrifugal force to the mold 20, curing the mold, and demolding it; It is characterized in that it comprises a prefabricated structure of the prefabricated sphere and the support plate, and the concrete pole fabrication method using the same.

In addition, the direction of the tension bolt insertion groove 956 of the spherical tension plate (900B) is the same as the inclination direction of the tension root (64).

When the tension bolt insertion groove 954 of the spherical tension plate 900B is matched with the inclination of the tension root 64, it is possible to prevent the tensile force loss of the tension muscle 64 from being reduced due to friction. If the direction of action of the tension force and the direction of the tension muscles 64 is matched because the bending angle does not occur in the tension muscles 64, no tensile force loss occurs.

Since the fine error is adjusted by the hinge portion 720 of the tension hinge bolt 700 and the hinge groove 956 corresponding thereto, the tensile force loss of the tension root 64 due to the friction force is minimized.

In addition, in the above step, the small hollow hole 950 of the spherical tensile plate 900B is blocked by the blocking plate 970 having a small circular hole in the center thereof, but the blocking plate 970 forms a straight line with the mortar-adhesive part 964 while The point where the vertical portion 966 meets is fixed by welding 972.

When the small hollow portion 950 of the spherical tension plate 900B is blocked by the blocking plate 970, the concrete mortar inside the mold 20 does not protrude out of the mold 20 due to the centrifugal force.

700; Tension Hinge Bolt
710; Head 720; Hinge portion, 730; The insertion portion
900A; Sphere Support Plate
910; Public study 912; Flange contact surface, 914; Rim fixed support jaw, 916; Mortar
920; Fastening surface, 922; Bolt insertion groove, 924; Fixing bolt 926; nut,
930; If pressed, 932; Slope, 934; Vertical,
900B; Sphere
950; Small hollow, 952; Concluding Government, 954; Tension bolt insertion groove, 956; Hinged Groove,
960; Press, 962; Vertical insert, 964; Mortar, 966; Inner Vertical Section
970; Blocking plate, 972; welding
A; Sphere Side Support Flange

Claims (7)

In the present invention, the tension root 64 is disposed in the mold 20 in which the spherical side support flange A and the spherical side support flange B are formed, and one end of the tension root 64 is fixed to the spherical side, The other end of the tension root 64 is tensioned by the tension shaft 50 connected to the connection ring 200 in a state fixed to the horse plate 40, and filled with concrete mortar in the mold 20 centrifugal force to the mold 20 In the production apparatus for manufacturing concrete pole by adding

The ball support plate (900A) having a public ball 910 and the ball holder plate (900B) having a small hollow portion 950 is divided into a structure of the ball support plate (900A) consists of a lower and a top, and the support plate (900A) The lower portion is formed of the flange contact surface 912 which is in contact with the spherical side support flange (A) and the edge fixed support jaw 914 and the mortar contact surface 916 along the interface of the mold 20, A fastening surface 920 having a bolt insertion groove 922, an inclined surface 932, a pressing surface 930, and a vertical surface 934 are sequentially formed on the upper portion of the supporting plate 900A. The spherical tension plate (900B) is inserted into the public study 910 of the) is a fastening fastening portion 952, the pressing portion 960, the vertical inserting portion 962 and the mortar contact portion formed with a tension bolt insertion groove 954 964 and the inner vertical portion 966 are sequentially formed, and fixed to the support flange (A) by the fixing bolt 924 While inserting and assembling the vertical inserting portion 962 of the spherical tension plate 900B in the mass study of the fingerboard 900A, the fixation of the spherical tension plate 900B is firmly fixed by the tension force of the tension root 64. Prefabricated sphere structure with divided spherical plate and disc support plate
The method of claim 1, wherein
At the position corresponding to the hinge portion 720 so that the tensioning bolt 700 having the insertion portion 730 and the head portion 710 in the tension bolt insertion groove 954 and the hinge portion 720 formed therein can be inserted. The hinge groove 956 is formed, but the hinge groove 956 is a prefabricated structure of the spherical tension plate and the support plate is divided, characterized in that the circular shape and the right angle to the tension bolt insertion groove 954 is formed.
The method according to claim 1 or 2
The prefabricated structure structure of the spherical tension plate and the support plate is divided, characterized in that the direction of the tension bolt insertion groove 956 of the spherical tension plate 900B coincides with the inclination direction of the tension root 64
The method according to claim 1 or 2
A small circular hole is formed in the center of the blocking plate 970 to block the small hollow portion 950 of the spherical tension plate 900B, but the blocking plate 970 forms a straight line with the mortar contact portion 964 while the inner vertical portion 966 The prefabricated structure structure of the spherical tension plate and the disc support plate is characterized in that the fixing point by the welding 972
In the present invention, the tension root 64 is disposed in the mold 20 in which the spherical side support flange A and the spherical side support flange B are formed, and one end of the tension root 64 is fixed to the spherical side, The other end of the tension root 64 is tensioned by the tension shaft 50 connected to the connection ring 200 in a state fixed to the horse plate 40, and filled with concrete mortar in the mold 20 centrifugal force to the mold 20 In the manufacturing method of manufacturing concrete pole by adding

원 inserting the support plate 900A so that the edge fixing support jaw 914 is supported on the boundary surface of the mold 20, wherein the flange contact surface 912 of the support plate 900A is the support flange of the mold 20 After the bolt insertion groove 922 of the fastening surface 920 coincides with the bolt insertion groove 922 of the support flange A in a state of being in contact with A), the fixing bolt 924 to the bolt insertion groove 922. Inserting the pin support plate (900A) firmly fixed to the support flange (A);

끝 One end of the tension root 64 is attached to the end plate 40 and tensioned in the state where the tension root 64 is disposed between the spherical side support flange A and the spherical side support flange B in the mold 20. The other end of the root 64 is fixed by the tension hinge bolt 700 inserted into the tension bolt insertion groove 954 of the spherical tension plate 900B having a hinge groove 956 of the spherical tension plate 900B. The vertical inserting portion 962 is inserted and assembled into the spherical support plate 900A so that the pressing portion 960 of the spherical tension plate 900B is firmly supported and fixed on the pressing surface 930 of the spherical support plate 900A;

(B) imparting tensile force to the tension roots 64 by a known connection ring 200 which simultaneously connects the horseboard 40 and the tension shaft 50, and then injects concrete mortar into the mold 20;

⒟ forming a concrete pole by applying centrifugal force to the mold 20, curing the mold, and demolding it; It is characterized in that it comprises a prefabricated structure of the prefabricated sphere and the support plate, and the concrete pole fabrication method using the same.
The method of claim 5, wherein
The prefabricated structure of the sphere and the support plate is divided prefabricated plate and the support plate, characterized in that the direction of the tension bolt insertion groove 956 of the spherical tension plate (900B) in step iii coincides with the inclination direction of the tension root (64); Concrete pole pole manufacturing method using this
The method according to claim 5 or 6
Blocking the small hollow portion 950 of the spherical tension plate (900B) with a blocking plate (970) in which the small circular hole is drilled at the center in the first step, while the blocking plate (970) forms a straight line with the mortar-adhesive portion (964). The prefabricated structure of the sphere divided by the spherical tension plate and the support plate, characterized in that the fixing point to meet the part 966 by welding (972) and the method of manufacturing concrete pole using the same

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