KR100654380B1 - Dehumidifier for bridge - Google Patents

Abstract

The present invention relates to a bridge dehumidification apparatus, the bridge dehumidification apparatus according to the present invention is installed in the communication pipe and the box girder of any one of the box girder communicating two box girders with each other moisture in the air flowing through the box girder Is installed in the water under the pier of the outside of the indoor radiator and box girder to generate condensed water by The bridge dehumidifier according to the present invention includes a discharge unit for discharging condensed water to the outside of the box girder, and dehumidifying moisture in the air circulating inside two box girders by applying an indoor radiator and an outdoor radiator. So that it can happen inside the box girder This has the effect of improving the lifespan and reliability of the bridge by making the post-management of rust more efficient.

Description

Dehumidifier for bridge using two radiators

1 is an elevation view of a bridge to which a box girder according to the present invention is applied.

FIG. 2 is a cross-sectional view illustrating an arrangement structure and a dehumidifier of the box girder of FIG. 1.

3 is a detailed view showing an installation state of the dehumidifying apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

11.Box Girder

100.Communication tube

120 ... inside radiator

140 .... Collection

170 ... outside radiator

180.Distribution

190 ... pump

The present invention relates to a bridge dehumidification apparatus, and more particularly, to a bridge dehumidification apparatus using two radiators to be dehumidified by a radiator installed inside and outside the box girder.

In general, the structural elements of the basic suspension bridge can be divided into reinforcement type, main cable, pylon, and anchorage part. The reinforcement supports and distributes the load and bears the aerodynamic stability of the overall structure. The load on the reinforcement is transmitted to the main cable through a hanger.

Reinforcement types of these suspension bridges have been constructed in a variety of forms, which can be divided into type I, trust and box girder. Type I molds were used in early Dandan suspension bridges, but they are rarely used since they are known to be aerodynamically disadvantageous. Trusts and box girders have advantages and disadvantages, depending on their aerodynamic properties, ease of installation, and ease of maintenance, and are selected for their superiority.

Box girders can be divided into PSC box girders and steel box girders depending on the material. Steel box girders are mainly used for large bridges.

However, steel box girders used in bridges are more likely to form oxides on the surface of metals because of the high moisture content around them and the sealed interior. The outer surface of the box girder can prevent the surface from rusting by performing antirust treatment such as painting, but there is a problem that the inside of the box girder is difficult to paint. In addition, even a slight anti-rust treatment, the anti-rust effect is lost over time, and there is a possibility that oxidized on the inner surface of the box girder due to the moisture inside.

A technique for preventing corrosion and removing rust inside a box girder is disclosed in Patent Publication No. 2000-59796. This technique uses a flexible axial wire brush, which inserts a wire brush into the box girder to remove rust, removes rust from the vacuum using a vacuum cleaner, dries the box girder, and then uses a box to inject the box. Dispersing a rust converting agent on the entire surface of the girder to convert the residual rust to the anticorrosive coating, and further comprises the step of adding a vaporizing corrosion inhibitor.

However, this technique is not only a method of removing rust after the rust has already occurred, but also requires a person to remove it using a machine or a tool. There is a problem to break through. And if the box girder is long, there is a problem that it is difficult to remove the rust deep in the wire brush and vacuum cleaner.

The present invention is to solve such a problem, an object of the present invention is to effectively remove the moisture inside the box girder of the bridge to prevent the inside of the box girder to prolong the life of the bridge, to increase the reliability of the bridge It is to provide a dehumidifier.

Bridge dehumidification apparatus using two radiators according to the present invention for achieving the above object is installed in parallel with each other communicating tube communicating with one end and the other end of the two box girder reinforcing the top plate; An indoor radiator installed inside one of the two box girders to condense moisture in the air flowing through the box girders to generate condensed water; An indoor blower installed between the inlet of the communication tube and the indoor radiator to allow air inside the box girder to flow into the indoor radiator; An outdoor radiator installed in the lower portion of the pier outside the box girder and connected to each other by the indoor radiator and the coolant distribution pipe; A discharge unit installed under the indoor radiator and discharging condensate generated and collected by the indoor radiator to the outside of the box girder; It is provided on the distribution pipe is provided with a pump for pumping the cooling water inside the distribution pipe.

And preferably the air inlet side of the indoor radiator is provided with a guide duct for guiding the air inside the box girder to the indoor radiator.

In addition, the discharge unit is installed in the lower portion of the indoor radiator is characterized in that it comprises a collecting plate for collecting condensate and the discharge pipe for guiding the condensate collected from the collecting plate to the outside of the box girder.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail.

1 schematically shows a bridge to which a bridge dehumidification apparatus using two radiators according to the present invention is applied. The bridge includes a girder 10 forming a substructure of the bridge and a box girder 11 and 11 ′ forming a superstructure and a supporting structure for supporting the box girder 11 and 11 ′. 11) 11 'are provided on both sides, each extending in the longitudinal direction of the bridge. And the upper plate 12 is installed on the top of the box girder (11, 11 '), the packaging for the passage and walking of the vehicle is made thereon.

And the bridge dehumidifier according to the present invention is installed on both ends of the box girder (11) (11 '), respectively, as shown in Figure 2, the middle part inside the box girder (11) (11') is isolated from each other Becomes Since the box girders 11 and 11 'are extended by the length of the bridge, the box girders 11 and 11' are installed to be considerably longer depending on the width and the installation location. Therefore, it is preferable to isolate the insides of the box girders 11 and 11 'at appropriate positions according to the length of the bridges, and then install separate bridge dehumidifiers in the isolated portions.

The one box girder 11 isolated as described above is communicated with each other by the communication tube 100 at both ends and the other box girder 11 'arranged together in parallel on the side thereof. Therefore, the two box girders (11) (11 ') inside the continuous air circulation by the blowing force generated by the dehumidifier.

2 and 3, the bridge dehumidifier according to the present invention has an indoor radiator 120 installed before the inlet of the communication tube 100 and the air inside the box girder 11 by the indoor radiator 120. Guide duct 110 for reducing the size of the flow path so as to flow in concentrated.

And it is installed on the outlet side of the indoor radiator 120 is installed in the lower side of the indoor blower 130 and the indoor radiator 120 to circulate the air inside the box girder (11, 11 ') radiator 120 It is provided with a collecting plate 140 through which the condensed water is collected and the discharge pipe 150 for guiding the condensate collected in the collecting plate 140 to the outside of the box girder 11.

Here, a check valve (not shown) is provided inside the discharge pipe 150 to prevent the inflow of air from the outside of the box girder 11 and to simultaneously open the flow path only to the outlet side of the discharge pipe 150 so as to smoothly discharge the condensate. It is preferable to install.

On the other hand, the outdoor radiator 170 is installed in the lower part of the pier. The outdoor radiator 170 is for cooling the heated cooling water while circulating the indoor radiator 120. Accordingly, the distribution pipe 180 extending from the indoor radiator 120 extends to the outdoor radiator 170 through the outside of the box girder 11 and the pier 10, and the distribution pipe 180 inside the box girder 11. ) Is provided with a pump 190 for pumping the cooling water.

Hereinafter will be described the operation state of the bridge dehumidifier using two radiators according to the present invention configured as described above.

Bridge dehumidifier according to the present invention is connected to each other via a communication tube 100 mounted on two box girders (11) (11 ') installed in parallel on the bridge 10 in a closed box girder (11) (11') It will dehumidify the inside.

The indoor radiator 120 cools the air introduced through the guide duct 110 with cold cooling water by the operation of the indoor blower 130 to condense moisture in the air. The condensed water is collected in the collecting plate 140 mounted at the bottom of the indoor radiator 120 and then discharged to the outside of the box girder 11 through the discharge pipe 150.

And the air dehumidified by the continued operation of the indoor blower 130 proceeds to the other box girder 11 'through the communication pipe 100, the air proceeded to the other box girder 11' again The inside of the box girder (11) (11 ') is circulated to reach the indoor radiator (120) to continue air dehumidification.

On the other hand, the dehumidifier according to the present invention mainly uses the principle of the radiator used for the cooling of the internal combustion engine, in the indoor radiator 120 to cool the air inside the box girder 11, in the outdoor radiator 170 Cooling the temperature rises while passing through the indoor radiator 120.

Since the entire outdoor radiator 170 is immersed in the water under the pier 10, the coolant of which the temperature rises through the indoor radiator 120 is cooled in the water.

That is, the indoor radiator 120 absorbs heat from the air inside the box girders 11 and 11 ′ to generate condensed water, and the outdoor radiator 170 radiates heat into the water to cool the cooling water. do.

As described above, the dehumidifier of the present invention has an indoor radiator 120 and an outdoor radiator 170 through which refrigerant is circulated, thereby lowering the air inside the box girders 11 and 11 'to a lower temperature than the ambient temperature. Dehumidification is performed inside the girder (11, 11 '). Therefore, its use may be limited in winter, and it may be desirable to add a separate antifreeze to prevent freezing of the cooling water.

On the other hand, if the embodiment of the present invention different from the embodiment of the above-described modifications of part of the configuration basically installed the indoor radiator inside the box girder, the outdoor radiator in the water of the piers are all technical of the present invention It should be considered to be included in the category.

Bridge dehumidification apparatus using two radiators according to the present invention as described above to be applied to the indoor radiator and the outdoor radiator to dehumidify the moisture in the air circulating inside the two box girder generated inside the box girder The post-management of rust can be done more efficiently, thereby improving the life and reliability of the bridge.

Claims (3)

Communication pipes installed in parallel with each other to communicate one end and the other end of the two box girders to support the top plate reinforcement; An indoor radiator installed inside one of the two box girders to condense moisture in the air flowing through the box girders to generate condensed water; An indoor blower installed between the inlet of the communication tube and the indoor radiator to allow air inside the box girder to flow into the indoor radiator; An outdoor radiator installed in the lower portion of the pier outside the box girder and connected to each other by the indoor radiator and the coolant distribution pipe; A discharge unit installed under the indoor radiator and discharging condensate generated and collected by the indoor radiator to the outside of the box girder; Bridge dehumidification apparatus using two radiators, characterized in that provided on the distribution pipe and provided with a pump for pumping the cooling water in the distribution pipe. 2. The bridge dehumidifier of claim 1, wherein a guide duct for guiding the air inside the box girder is provided at the air inlet side of the indoor radiator. According to claim 1 or 2, wherein the discharge portion is installed in the lower portion of the indoor radiator and the collecting plate for collecting condensate and the discharge pipe for collecting the condensate collected from the collecting plate to the outside of the box girder, characterized in that Bridge dehumidifier using two radiators.

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