KR101192715B1 - Hybrid mold for telegraph pole and hybrid telegraph pole using the same - Google Patents

Abstract

PURPOSE: A mold for a hybrid utility pole and a hybrid utility pole manufactured using the same are provided to reduce manufacturing costs by setting a position fixing plate for dividing concrete in the mold. CONSTITUTION: A mold for a hybrid utility pole comprises a mold(200) and position fixing plates(300) for dividing concrete. The mold is formed by coupling together a pair of semicircular molds(210), and concrete is placed inside the mold. The position fixing plates are installed inside the mold in the horizontal cross section direction of the mold. Each position fixing plate comprises a finishing plate(310), a fixing guide sleeve, and a fixing bolt(330). The finishing plate is used as a boundary plate of reinforced concrete(C1) and fiber reinforced concrete(C2). The fixing guide sleeve sets the finishing plate to a desired position inside the mold. The fixing bolt fixes the finishing plate to the mold.

Description

HYBRID MOLD FOR TELEGRAPH POLE AND HYBRID TELEGRAPH POLE USING THE SAME

The present invention relates to a hybrid telephone pole mold and a hybrid telephone pole manufactured using the same. More specifically, in order to prevent the occurrence of defects due to cracking after construction, the hybrid body pole mold in which the concrete pole and the fiber reinforcement pole, which are fabricated so that the fiber reinforcement pole is located, and the hybrid pole pole manufactured by using the same It is about.

In general, telegraph poles are pillars that support electric wires such as telegraphs, telephones, lights, etc., including wooden poles and reinforced concrete poles.

The wooden pole is low in price, light in weight, easy to transport, but low in durability due to its low durability, and reinforced concrete is inexpensive and capable of mass production, and most of the pole pole is made of concrete.

Of course, there are cases in which steel poles are made of steel, but the economic feasibility of low-cost poles can be called reinforced concrete.

This reinforced concrete stock is placed in the mold and reinforced steel wire (tension) and the PC steel wire is pre-tensioned and fixed in the mold end, and then poured concrete into the mold,

The mold is installed in a centrifugal molding machine and the mold is rotated to form a hollow tube through centrifugal molding.

The mold is moved to a curing room to cure concrete, and the final production is completed by demolding the mold.

However, these reinforced concrete shares are not only difficult to transport due to heavy weight, but are also exposed to the danger of electric shock because the telegraph pole itself becomes a conductor due to reinforcing bars inserted to reinforce strength.

Therefore, in order to greatly improve the light weight and non-conductivity of the telephone poles in recent years, the poles have been introduced using high-strength ultra-light fiber-reinforced plastic in order to facilitate transportation and prevent the risk of electric shock.

The fiber-reinforced plastic is composed of a reinforcing fiber and a polymer resin, glass fiber, carbon fiber, Kevlar fiber is used as the reinforcing fiber, the thermosetting resin such as unsaturated ester, vinyl ester, epoxy, nylon, polyamide Thermoplastic resins such as imide are used.

There are three main methods for producing a telephone pole using a fiber-reinforced plastic material made of the above-described materials, a drawing method, a filament winding method, and a centrifugal casting method.

First, the drawing method is a method of extracting a fiber-reinforced plastic mass in a certain shape, and it is difficult to reinforce circumferentially, and in the case of a large structural material, distortion occurs frequently.

The filament winding method is a method of winding a filament-type fiber-reinforced plastic into a pipe shape by winding it to a certain thickness in a predetermined direction on the outer surface of the mendrel. The telegraph pole manufactured by this method has the highest reinforcing fiber impregnation rate, but the flexural strength is high. Is low and not suitable for forming large telegraph poles.

In the centrifugal casting method, the fibers are wound around the mandrel, and then a centrifugal caster is used to apply the polymer resin to the outer surface of the mandrel coated with fibers by centrifugal force and then to harden them. You are done.

However, in the polymer resin and the reinforcing fiber used when fabricating the poles using fiber-reinforced plastics, the manufacturing cost was also high due to the high unit cost of the polymer resin having a high composition ratio.

In addition, Figure 1a is a front view showing the construction of the conventional telephone pole (10).

That is, the telephone pole 10 is constructed so that the lower portion is embedded in the ground (G), which can be called a method of using the telephone pole underneath.

To this end, excavation of the ground (G) to buy the telephone pole 10, but if the support of the ground is insufficient, the construction of the pole pole (10) will be conducted.

Therefore, as shown in FIG. 1B, the auxiliary steel 20 may be attached to the lower portion of the telephone pole 10 to prevent such conduction. In this case, however, the installation of the auxiliary steel 20 is inevitably accompanied with workability and economical deterioration.

Furthermore, as shown in FIG. 1c, there is an example of further constructing the reinforced concrete foundation 30 in the lower pole of the telephone pole 10. In this case, the amount of excavation of the ground is increased, and materials and manpower required for construction of the foundation are inevitably consumed.

However, even when the telephone pole 10 is installed in this way, a crack occurs on the surface of the telephone pole 10, and such cracks are generated mostly near the ground surface.

That is, as shown in FIG. 1D, most of the cracks occur at about 1.0D on the upper side and about 1.5D on the lower side (where D is the average diameter of the whole pole).

The crack site may be referred to as a site where the horizontal force caused by earth pressure and external force is the greatest.

Therefore, it is necessary to reinforce the cracking site, and in fact, as the time passes, the cracking becomes larger, and the final telephone pole is inevitably replaced.

Accordingly, the present invention is to produce a pole pole with a reinforced concrete, but the technical problem to solve the hybrid pole pole produced by using a mold for the hybrid pole pole that can effectively control the crack of the pole pole occurs on the surface area.

According to an aspect of the present invention,

First, install the position fixing plate for the concrete division in the mold for the production of poles, but by placing the fiber reinforced concrete and concrete in the mold based on the position fixing plate for the concrete division by using the position fixing plate for the fiber reinforced concrete and concrete It is to provide a hybrid telegraph pole mold that can be integrated with each other.

Secondly, the hybrid telegraph pole made of the hybrid telegraph pole is formed of the reinforced concrete pole pole and the fiber reinforcement pole pole, and the boundary of the reinforced concrete pole pole and the fiber reinforcement pole pole is to provide a hybrid pole pole embedded with a fixed plate The construction of the fiber reinforcement unit is located in the crack generation site during construction.

Third, the hybrid telegraph pole is formed integrally with reinforced concrete pole poles on both sides based on the fiber reinforcement poles, the reinforced concrete pole pole pole is formed integrally on one side based on the fiber reinforcement poles and the other side is a steel The pedestal is integrally formed, and the fiber reinforcement part pole and the reinforced concrete part pole are integrally formed.

In addition, the bottom support is made of steel to be further formed integrally on the lower part of the reinforced concrete pole telephone pole or fiber reinforced telegraph pole.

To this end,

A mold in which a pair of semi-circular molds are combined to form a concrete therein; And a location fixing plate for concrete division so that the concrete can be divided and poured in the mold.

The concrete location fixing plate is a finishing plate formed of a circular plate in the form of a hollow ring is formed, the through-hole is formed so that the PC steel wire can be penetrated, and is formed by forming a shear connection protruding to both sides of the finishing plate To secure the integrity of the poured concrete, and to form a fastening hole having a screw portion formed therein on the outer surface to be fixed to the mold, a fixing bolt inserted through the fixing hole formed in the mold is fastened to the closing plate. The present invention provides a hybrid telegraph pole mold and a hybrid telegraph pole manufactured by using the same to be fastened to a hole so that the position fixing plate for concrete division can be mounted on a mold.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

Hybrid telegraph pole mold according to the present invention can use the existing equipment for the production of reinforced concrete pole poles as it is, but by setting the position fixing plate for the concrete partition in the mold to produce a hybrid telegraph pole to ensure sufficient economic efficiency in the production cost do.

In addition, the hybrid telegraph pole is to be reinforced with the reinforced concrete pole pole and fiber reinforcement pole pole, but the fiber reinforcement pole pole is located on the ground surface area can greatly reduce the occurrence of defects due to cracks generated on the pole around the surface during the construction of the pole pole Will be.

In addition, the lower portion of the fiber reinforcement telegraph pole is formed so that the lower support is integrally available in the case of using the base block.

1a, 1b, 1c and 1d is a construction cross-sectional view and construction state diagram of a conventional telephone pole,
Figure 2a and Figure 2b assembled perspective view of the hybrid telegraph pole mold of the present invention,
Figure 3 is a construction of the hybrid telegraph pole of the present invention,
4A, 4B and 4C show another embodiment of the hybrid telegraph pole of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Hybrid Telegraph Pole (A)

2A and 2B show assembling perspective views of the hybrid telegraph pole A of the present invention.

First, the hybrid telegraph pole (A) as shown in Figure 2a is made to include a mold 200 and the position fixing plate 300 for concrete separation.

First, the mold 200 arranges the reinforcing bars (not shown) and the PC steel wire tension member 220 in one semicircular mold 210 in a state in which a pair of semicircular molds 210 are separated from each other, and the reinforcing bars and the tension members. The semi-circular mold 210 is arranged to combine the other semi-circular mold 210 in a screw fastening method, such as up and down is used to produce a telegraph pole in the form of a final hollow tube.

The concrete location fixing plate 300 is mounted on the semi-circular mold 210 and is mounted by the fixing bolt 330 inserted through the fixing hole 230 formed in the mold 200.

Accordingly, the concrete location fixing plate 300 is made of a closing plate 310 which is a circular plate formed with a hollow portion, but using a plate having a predetermined thickness, such a concrete location positioning plate 300 is a closing plate 310 And a fixed induction sleeve 320 and a fixing bolt 330.

First, the finishing plate 310 serves as a boundary plate between the reinforced concrete (C1) and the fiber reinforced concrete (C2) that is installed and placed in the mold 200 may be made of steel.

Such a closing plate 310 may be installed at the boundary between the site where the fiber reinforcement unit telephone pole 120 is formed and the reinforced concrete unit telephone pole 110 is formed.

At this time, the closing plate 310 is formed so that the through-hole 311 is formed so that the reinforcing bar and / or the tension material can penetrate, and the hollow 312 is formed in the center portion is formed in a ring shape.

In addition, the closing plate 310 is formed with a shear connecting member 314 protruding from both sides, respectively, so that the fiber reinforcement portion and the reinforced concrete portion are surely synthesized and integrated with each other as will be described later.

Furthermore, in order to fix the closing plate 310 to the mold 200, a fastening hole 313 is formed on the outer surface of the closing plate 310.

An inner surface of the fastening hole 313 is configured to form a screw so that the fixing bolt 330 can be fastened. It can be seen that the closing plate 310 can be fixed to the mold 200 by the fixing bolt 330 inserted through the fixing hole 230 formed in the mold 200.

Furthermore, as shown in FIG. 2B, the closing plate 310 is positioned inside the mold 200, and the closing plate 310 is set in accordance with the fixing holes 230 and the fixed induction sleeve 320 formed in advance in the mold 200. The closing plate 310 is to be fixed to the mold 200 to be fixed to the fixing bolt 330.

In this case, the fixed induction sleeve 320 has a function of allowing the reinforcing bars and the tension member to easily penetrate the closing plate 310 by setting the closing plate 310 at a desired position in the mold 200.

Accordingly, the fixed induction sleeve 320 may be previously installed in the mold 200 in response to the fixing hole 230 or may be installed in the finishing plate 310 in correspondence with the fixing hole 230 in advance.

2a and 2b, after installing the location plate for fixing the concrete 300 in the mold 200, the concrete is poured by centrifugal molding to complete the hybrid telegraph pole 100 of the present invention.

At this time, it is possible to manufacture a variety of hybrid telegraph pole 100 in accordance with the number of installation of the position fixing plate 300 for the concrete separation in the mold (200).

[Hybrid Telegraph Pole 100 Using Hybrid Telegraph Pole (A)]

Hybrid telegraph pole 100 of the present invention is formed by the fiber reinforcement portion telephone pole 120, the site where the cracking occurs due to external forces during construction as shown in Figure 3, the other portion is made of reinforced concrete portion pole pole 110 It can be called a telephone pole.

Accordingly, the fiber reinforcement part pole 120 and the reinforced concrete pole pole 110 should be synthesized integrally with each other, such a synthesis is to be made in the process of manufacturing the pole pole, the hybrid telegraph pole mold (A) described above is used for this purpose. .

The hybrid telegraph casting mold 200 is manufactured using a centrifugal molding method. In other words, by using the conventional equipment and method for manufacturing the reinforced concrete part telegraph poles as it is not to add a separate facility to ensure the economics in production.

First, the reinforcing bar for the production of the hybrid pole 100, the tension material may be used as it is used for conventional pole pole production,

Concrete for manufacturing the reinforced concrete pole pole 110 may also use concrete (C1) used for conventional pole pole production.

In addition, the fiber reinforcement unit telephone pole 120 is to use concrete, but using fiber reinforced concrete (C2). Such fiber-reinforced concrete may be prepared by mixing fiber reinforcement materials such as glass fiber, carbon fiber and the like into concrete.

Thus, the reinforced concrete part poles 110 and the fiber reinforcement poles 120 are used to integrally manufacture the hybrid telegraph pole mold 200 of Figures 2a and 2b.

At this time, the present invention is to place the fiber reinforcement unit pole pole 120 is located in the area near the surface as shown in Figure 1d, the rest of the reinforced concrete pole pole pole 110 is located by the location of the crack of the body pole generated near the ground surface fiber reinforcement portion The telephone pole 120 is to resist.

That is, the fiber reinforcement part pole 120 has a very large resistance to tensile cracking, so it is possible to solve the problem of cracking the conventional reinforced concrete part pole is susceptible to cracking.

To this end, the mold 200 should be placed with the reinforced concrete as well as the reinforced concrete, but when the concrete (C1) and the fiber reinforced concrete (C2) are cast together with the mold 200 to rotate the concrete and fiber Since the boundary portion of the reinforced concrete is not constant, problems arise in that the fiber reinforcement portion telephone pole 120 is located at a desired portion.

Accordingly, the present invention is to mount the location plate for fixing the concrete 300 as shown in Figure 2a and 2b to the mold 200.

The concrete location fixing plate 300 distinguishes the boundary between the reinforced concrete and the fiber reinforced concrete placed in the circular mold so that they do not mix with each other when the mold is rotated, and serves to structurally integrate both concretes.

Of course, the reinforcing bars and tension members are installed to penetrate the concrete position fixing plate 300 in the longitudinal direction, and the tension steel 220, which is the PC steel wire, is pre-tensioned and then fixed using a fixing plate at the mold end so that prestress is introduced in advance. Done.

Accordingly, after the concrete location fixing plate 300 is fixed to the mold 200 in the cross-sectional direction of the mold (orthogonal to the longitudinal direction of the mold), the concrete is placed in the mold. Fiber reinforced concrete (C2) is poured in between, and the general concrete (C1) is poured in other parts.

Next, the mold 200 on which the concrete (C1) and fiber reinforced concrete (C2) is poured is centrifugally molded, and the concrete (C1) and fiber reinforced concrete (C2) are cured in a final curing room, followed by mold 200. By removing the to produce a hybrid telephone pole 100 of the present invention.

In FIG. 3, the hybrid telegraph pole 100 can be seen that the fiber reinforcement pole 120 is formed between the reinforced concrete pole pole 110, and the fiber reinforcement pole 120 is constructed on the ground surface. It is constructed to be located nearby.

Furthermore, the hybrid telephone pole of the present invention can be produced in various forms.

For example, the hybrid telegraph pole can be produced in a form (TYPE 1) in which the reinforced concrete unit poles are integrally formed on both sides of the fiber reinforcement poles.

That is, FIGS. 4A and 4B are TYPE 1, in which there is no fixed guide sleeve 320 and when there are two fixed location plates 300 for concrete separation in the mold, spaced apart from each other, based on the fiber reinforcement telephone pole 120. Reinforced concrete portion telephone pole 110 is a hybrid telephone pole is formed integrally on both sides.

Next, the reinforced concrete body pole 110 is integrally formed on one side based on the fiber reinforcement pole 120 and the lower base C4, which is steel, is integrally formed on one side (TYPE 2).

That is, Figure 4c is a TYPE 2, when there is no fixed induction sleeve 320, one side of the fiber reinforcement unit telephone pole 120 based on the case where the two concrete positioning plate 300 is installed in the mold spaced apart from each other Reinforced concrete portion pole pole 110 is formed integrally and the other side shows a hybrid pole pole formed integrally with the lower base (C4) steel.

The lower base (C4), which is such a steel, is formed in the mold 200 as a double tube form, which is formed of a main body having a length corresponding to the extension length of the reinforced concrete pole 110, and a base plate and a reinforcing piece, and a foundation block. It can be seen that it is fixed by the fixing nut.

Next, the fiber reinforcing part telephone pole 120 and the reinforced concrete unit telephone pole 110 can be manufactured in a form (TYPE 3) formed integrally.

That is, FIG. 4D illustrates a case in which there is no fixed induction sleeve 320 and one concrete fixing plate 300 is installed in the mold so that the fiber reinforcement part pole 120 and the reinforced concrete part pole 110 are integrally formed. It can be said that.

At this time, it can be seen that the bottom of the fiber reinforcement pole 120 is formed integrally with the lower support (C4) that is steel. This is the case that the lower base (C4) of the steel occupies a lower portion of the hybrid telephone pole may be applied to Figures 2c and 2d.

By forming a steel bottom support, it is also possible to easily install a hybrid telephone pole on the foundation block.

100: hybrid telephone pole
110: reinforced concrete pole telephone pole 120: fiber reinforcement pole telephone pole
200: mold
210: semi-circular mold
220: tension member 230: fixing hole
240: fixing bolt
300: position fixing plate for concrete
310: finish plate 320: fixed induction sleeve
330: fixed bolt
A: Hybrid Telegraph Pole
C1: concrete
C2: fiber reinforced concrete

Claims (5)

A mold 200 in which a pair of semi-circular molds 210 are coupled to each other and concrete is poured therein; And a concrete location fixing plate 300 installed in the cross-sectional direction of the mold so that the concrete can be divided and poured in the mold.
Position fixing plate 300 for the concrete classification is
As the closing plate 310 formed of a circular plate in the form of a hollow ring, the through hole 311 is formed so that the tension material can be penetrated, and the shear connection member 314 protruding to both sides of the closing plate is formed. In order to secure the integrity of the divided and poured concrete, and to form a fastening hole 313 formed with a screw portion on the outer surface to be fixed to the mold 200,
The fixing bolt inserted through the fixing hole 230 formed in the mold 200 is fastened to the fastening hole 313 of the closing plate 310 so that the position fixing plate 300 for concrete separation is formed on the mold 200. Hybrid telegraph pole mold to be mounted. The method of claim 1,
Between the fastening hole of the closing plate and the fixing hole of the mold fixed induction sleeve for setting the closing plate 310 in the mold 200 to the desired position so that the rebar, PC steel wire can easily penetrate the closing plate 310 (320) more,
The fixed guide sleeve 320 is a hybrid telegraph pole mold, characterized in that installed in advance in the fastening hole 313 of the inner surface or the closing plate 310 of the mold 200 corresponding to the fixing hole 230. Prepare a hybrid telegraph pole 200 of claim 1,
Placing fiber-reinforced concrete (C2) on an entire site of one side based on one concrete separation position fixing plate (300) installed in the prepared mold (200), and placing concrete (C1) on the entire other site; And
Demolding the fiber-reinforced concrete (C2) and concrete (C1) and demolding the mold 200; including,
The fiber reinforcement pole 120 and the reinforced concrete unit pole pole 110 is formed integrally, and the bottom of the fiber reinforcement pole (120) is a hybrid telegraph pole mold characterized in that the bottom support (C4) is formed of steel Hybrid telephone pole produced. Prepare a hybrid telegraph pole 200 of claim 1,
Placing fiber reinforced concrete (C2) between the concrete separation position fixing plate 300 is installed two spaced apart from each other in the prepared mold 200, concrete (C1) in a portion other than between the concrete separation position fixing plate (300) Pouring the; And
Demolding the fiber-reinforced concrete (C2) and concrete (C1) and demolding the mold 200; including,
Hybrid reinforcing poles produced using a hybrid telegraph pole, characterized in that the reinforced concrete pole pole pole 110 is formed integrally to both sides of the fiber reinforcement pole pole 120. Prepare a hybrid telegraph pole 200 of claim 1,
Placing the fiber reinforced concrete (C2) between the two spaced apart position fixing plate 300 is installed in the prepared mold 200, the concrete reinforcing concrete (C2), the concrete (C1) is poured into the whole side of the fiber reinforced concrete (C2), Disposing a lower support C4, which is steel, on the other side of the fiber reinforced concrete C2; And
Demolding the fiber-reinforced concrete (C2) and concrete (C1) and demolding the mold 200; including,
Reinforced concrete part pole pole 110 is formed integrally on one side of the fiber reinforcement pole 120, and the other side is a hybrid produced using a hybrid pole pole mold characterized in that the lower support (C4) is formed integrally telegraph pole.

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