KR100633728B1 - Heat exchanger coil for air handling unit - Google Patents

Abstract

A heat exchange coil for an air conditioner is provided to prevent breakage of a heat exchange pipe by preventing high pressure and high temperature steam from being contacted directly to the heat exchange pipe, and to improve heat exchange efficiency by evenly supplying heat exchange media to the heat exchange pipe between an inlet header and an outlet header. A heat exchange coil(100) includes an inlet header(300) having a supply pipe feeding heat exchange media, plural heat exchange pipes(200) connected to the inlet header and provided with plural heat exchange fins, an outlet header(400) connected to the end of the heat exchange pipe to drain the heat media exchanged with heat through the heat exchange pipe to a discharge pipe, and a porous plate(330) installed in the inlet header and provided with plural holes to divide the inlet header into a supply pipe side and a heat exchange side. An air pipe(500) is installed in an upper part of the outlet header, and a valve(510), a vacuum release member(520) and an air vent(530) are installed in the air pipe to relieve vacuum in an upper part of the outlet header.

Description

Heat exchanger coil for air handling unit

1 is a partial cross-sectional view showing a heat exchange coil of a conventional embodiment

2 is a partial cross-sectional view showing a heat exchange coil of another conventional embodiment

Figure 3 is a partial cross-sectional front view of an embodiment of the present invention heat exchange coil

4 is a plan view of the present invention Figure 3 embodiment

5 is an enlarged cross-sectional view of portion A of the present invention Figure 3

6 is a front sectional view partially showing another embodiment of the present invention heat exchange coil.

7 is a plan view of the present invention Figure 6 embodiment

8 is an enlarged cross-sectional view of portion B of the present invention Figure 6

Explanation of symbols on the main parts of the drawings

100: heat exchange coil 110: frame

200: heat exchanger tube 210: heat exchanger fin

300: entrance header 310: space

320: supply pipe 330: porous plate

340: hole 350: plate

400: outlet header 410: discharge pipe

500: air pipe 510: valve

520: vacuum releasing member 530: air vent

The present invention relates to a heat exchanger coil for an air conditioner installed in an air conditioner for controlling the temperature of air circulating into the room.

In particular, when circulating the heat exchange medium to the heat exchange coil of the air conditioner used to keep the indoor temperature of the building constant regardless of the season, the heat exchange medium supplied to the heat exchange coil is uniformly supplied to a plurality of heat exchange tubes at a uniform pressure. The present invention relates to a heat exchange coil for an air conditioner.

In general, the heat exchange coil used to control the temperature of the air circulated in the air conditioner has an inlet header at both ends of a plurality of heat exchanger tubes equipped with heat exchange fins in order to install the inlet and the outlet of the heat vapor supplied and returned in the same direction. A heat exchange coil having a structure in which only a supply pipe is connected to the inlet header and a supply pipe and a discharge pipe are connected to the inlet header is provided.

That is, the structure in which only the supply pipe is connected to the inlet header among the heat exchange coils has an inlet header 30 and an outlet header 40 at both ends of the plurality of heat exchange tubes 20 having the heat exchange fins 21, as shown in FIG. 1. Respectively installed, the supply pipe 32 is connected to the inlet header 30, and the discharge pipe 41 is connected to the lower portion of the outlet header 40, and the heat exchanged steam passes through the heat exchange pipe 20 to supply the supply pipe 32. It is made of a structure extending in the same direction as).

Meanwhile, the structure in which both the supply pipe and the discharge pipe are connected to the inlet header among the heat exchange coils has an inlet header 30 and an outlet header at both ends of the plurality of heat exchange tubes 20 provided with the heat exchange fins 21, as shown in FIG. 40 are respectively installed and connected to the inlet header 30 so as to maintain a constant distance between the supply pipe 32 and the discharge pipe 41, and the diaphragm 33 in the inner space 31 of the inlet header 30. It is provided so that the internal space 31 of the inlet header 30 is completely separated into the supply pipe 32 side and the discharge pipe 41 side.

However, the conventional heat exchange coil 10 of the two embodiments as described above is not only a structure in which all of the supply pipes 32 supplied with the high temperature and high pressure steam are connected to the inlet header 30, and the inside of the inlet header 30 is one. Since the high temperature and high pressure of the steam supplied through the supply pipe 32 expands into the space 31 of the inlet header 30 and passes directly through the plurality of heat exchange tubes 20, the supply pipe 32. The heat exchanger tube 20 close to the) is easily broken by the high temperature and high pressure steam.

That is, the high temperature and high pressure steam supplied to the inlet header 30 through the supply pipe 32 expands into the internal space 31 of the inlet header 30, but is located close to the supply pipe 32. Since the high temperature and high pressure steam before the expansion to the space 31 of the inlet header 30 is directly supplied, some heat exchange tubes 20 installed close to the supply pipe 32 are easily melted and broken by high temperature and high pressure steam. This was a frequent occurrence.

In addition, if the heat exchange tube 20 of the heat exchange coil 10 is partially damaged as described above, the heat exchange coil 10 loses heat exchange capacity using high temperature and high pressure steam. In addition, there is a problem that the air conditioner must be shut down.

Accordingly, an object of the present invention is to provide a plurality of heat exchange media supplied to the heat exchange coil when the heat exchange medium is circulated to the heat exchange coil in the heat exchange coil of the air conditioner used to maintain the indoor temperature of the building at a desired temperature regardless of the season. The heat exchange medium supplied through the supply pipe of the inlet header expands in the supply pipe space of the inlet header by installing a perforated plate separating the supply pipe side and the heat exchange tube side inside the inlet header so as to be uniformly supplied to the heat exchange tube of the inlet header. In addition, the pressure is distributed to the heat exchanger tube through the perforated plate while the pressure is dispersed, thereby preventing the high temperature and high pressure steam from directly contacting the heat exchanger tube when using the high temperature and high pressure steam as the heat exchange medium. High temperature and high pressure with a heat exchanger tube installed between the inlet header and the outlet header It is to provide a heat exchanger coil for an air conditioner to improve the heat exchange efficiency by evenly supplying a heat exchange medium including steam.

An object of the present invention is installed in the air conditioner, in the heat exchange coil consisting of a plurality of heat exchanger tube having an inlet header, an outlet header and a heat exchange fin, the inlet header is installed only or the supply pipe and the discharge pipe is installed together; One end is connected to the inlet header and is provided with a plurality of heat exchange tubes provided with a plurality of heat exchange fins on an outer circumferential surface thereof, and an outlet configured to be connected to the other end of the heat exchange tube to drain the heat exchanged steam to the discharge pipe while passing through the heat exchange tube. The heat exchange coil is formed of a header and a porous plate having a plurality of holes provided in the inner space of the inlet header so that the inner space of the inlet header can be divided into the supply pipe side and the heat exchange tube side.

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

A heat exchange coil 100 is installed inside an air conditioner used to maintain a constant indoor temperature of a building at a desired temperature regardless of season, and the heat exchange coil 100 has an inlet header for receiving a heat exchange medium from the outside. And a plurality of heat exchange tubes 200 for receiving heat exchange medium from the inlet header 300 and heat-exchanging the inside of the air conditioner, and discharging the heat-exchanged heat exchange medium while passing through the plurality of heat exchange tubes 200. It consists of an outlet header 400.

In this case, the inlet header 300 has a space 310 formed therein to be isolated from the outside, and a supply pipe 320 is connected to one side of the inlet header 300 so that a heat exchange medium is supplied from the outside, and a supply pipe 320 A plurality of heat exchanger tubes 200 are connected to the inlet header 300 of the other side to which is connected.

In addition, a plurality of holes 340 are formed in the internal space 310 formed in the inlet header 300 so that the supply pipe 320 and the heat exchange tube 200 installed on both sides of the inlet header 300 can be distinguished from each other. After installing the porous plate 330, the heat exchange medium supplied through the supply pipe 320 expands in the space 310 on the supply pipe 320 and is pressure-dispersed, and then heat exchanges through the holes 340 of the porous plate 330. It is configured to be supplied evenly to (200).

On the other hand, the outlet header 400 forms an integral space therein to allow the heat exchanged heat exchange medium to join while passing through the plurality of heat exchange tubes 200, and the discharge pipe 410 is disposed below the outlet header 400. It is connected to the discharge pipe 410 is configured to extend in the same direction as the supply pipe 320, and the air pipe 500 is connected to the upper side of the outlet header 400, the valve 510 to the air pipe 500 ) And the vacuum releasing member 520 and the air vent 530 are installed to solve the vacuum formed above the outlet header 400.

The present invention configured as described above, as shown in FIGS. When the heat exchange medium is supplied to the heat exchange medium, the heat exchange medium expands in the internal space 310 of the inlet header 300, and then heat exchanges with the surrounding air through the heat exchange fin 210 while passing through the heat exchange tube 200. It is possible to maintain the circulated room temperature at a desired temperature.

In this case, when the heat exchange medium supplied through the supply pipe 320 is steam of high temperature and high pressure for heating, the porous plate 330 is installed in the inner space 310 of the inlet header 300 to receive steam of high temperature and high pressure. The high temperature and high pressure steam expands in the internal space 310 of the inlet header 300 and is supplied to the heat exchange tube 200 through the porous plate 330 while the high temperature and high pressure steam is heat exchanger tube 200. It is possible to prevent the heat exchanger tube 200 from being damaged by being in direct contact with it.

That is, the heat exchanger tube 200 is installed between the inlet header 300 and the outlet header 400 in a state in which the inlet header 300 and the outlet header 400 are connected to each other. Not only can exchange heat with the outside air, it is installed while maintaining a constant distance from each other by the frame 110.

When the heat exchanger tube 200 installed as described above is directly contacted while the high temperature and high pressure steam supplied through the supply tube 320 passes through the inlet header 300, the heat exchange tube 200 may be melted and broken before being used for a long time. In the perforated plate 330 is installed in the space 310 of the inlet header 300 connecting the supply pipe 320 and the heat exchange tube 200, the porous plate 330 is the space 310 of the inlet header 300 ) Is installed so as to vertically partition the supply pipe 320 side and the heat exchange tube 200 side, and the steam supplied to the supply pipe 320 is supplied to the space 310 of the inlet header 300, first to the porous plate 330. After colliding, it expands and passes through a plurality of holes 340 formed in the porous plate 330 while dispersing the pressure into the space 310 on the supply pipe 320 side, and the space 310 on the heat exchange tube 200 side of the inlet header 300. Since the heat transfer pipe 200 is moved to the heat exchange pipe 200 through the high temperature and high pressure steam It will not be in contact with it and this will prevent damage to the heat exchanger tube 200.

As described above, the steam supplied to the heat exchange tube 200 is heat-exchanged with the outside air by the heat exchange fin 210 provided on the outer circumferential surface of the heat exchange tube 200, and is moved to the outlet header 400. In the vapor or heat exchanged water collected in one space in the discharge pipe 400 is discharged toward the supply pipe 320 through the discharge pipe 410 lower side.

The exhaust pipe 410 through the outlet header 400 by installing an air pipe 500 on the upper side of the outlet header 400 in the heat exchange coil 100 of the present invention to exchange heat while preventing the damage of the heat exchange tube 200 as described above. When the vacuum and water is discharged to the outlet header 400 while the vacuum is formed or the air is filled, the vacuum releasing member of the air pipe 500 is opened by opening the valve 510 installed in the air pipe 500. 520 is operated above the set pressure to discharge the air along the air pipe 500 through the air vent 530 and to discharge the air inside the outlet header 400 or to release the vacuum.

Meanwhile, when the supply pipe 320 and the discharge pipe 410 are both connected to the inlet header 300, as in the heat exchange coil of another embodiment illustrated in FIGS. 4 to 6, the inner space of the inlet header 300 is a diaphragm 350. Since it is completely separated into the supply pipe 320 side and the discharge pipe 410 side by installing the porous plate 330 in the space 310 in the state in which the diaphragm 350 is installed, as in the embodiment.

At this time, the porous plate is preferably installed only in the space 310 of the supply pipe 320 side of the space 310 separated by the diaphragm 350, but may be installed in both spaces 310.

When steam is supplied through the supply pipe 320 in the state in which the diaphragm 350 is installed in the inlet header 300 as described above, the steam of high temperature and high pressure expands in the space 310 on the supply pipe 320 side, and pressure distribution is performed. After passing through the hole 340 of the porous plate 330 is moved along the heat exchange tube 200, the heat exchange through the heat exchange fin 210 and are collected in the outlet header 400.

At this time, the steam of high temperature and high pressure moves to only the heat exchange tube 200 connected to the space 310 of the supply pipe 320 in the space 310 separated by the diaphragm 350, and heat-exchanges and collects in the outlet header 400.

Subsequently, the heat-exchanged steam or water collected in the outlet header 400 moves along the heat exchange tube 200 connected to the discharge pipe 410 of the inlet header 300 among the heat exchange tubes 200 installed in the heat exchange coil 100. The discharge pipe 410 is separated into the diaphragm 350 of the inlet header 300 is discharged to the outside through the space 310 and the discharge pipe 410.

Another embodiment of the present invention is also provided by the porous plate 330 installed in the inlet header 300 is evenly supplied to the heat exchange tube 200 while the high-temperature, high-pressure steam to form a pressure distribution to prevent breakage of the heat exchange tube 200 In addition, an air pipe 500 provided with a valve 510, a vacuum releasing member 520, and an air vent 530 may be installed on the upper side of the outlet header 400 to prevent vacuum generated in the outlet header 400. It can be solved.

As described above, the present invention is provided with an inlet header and an outlet header at both ends of a plurality of heat exchanger tubes equipped with heat exchange fins for a heat exchange coil of an air conditioner that maintains a room temperature of a building at a desired temperature regardless of seasons. By installing a porous plate having a plurality of holes formed in the inner space of the inlet header, the heat exchange medium supplied through the supply pipe of the inlet header expands in the supply side space of the inlet header and is supplied to the heat exchanger tube through the porous plate with the pressure dispersed. As a result, when the high temperature and high pressure steam is used as the heat exchange medium, the high temperature and high pressure steam is prevented from directly contacting the heat exchanger tube, thereby preventing damage to the heat exchanger tube, and the heat exchanger tube installed between the inlet header and the outlet header. It is possible to improve heat exchange efficiency by evenly supplying heat exchange medium including high temperature and high pressure steam. The effect is provided.

Claims (3)

In a heat exchanger coil installed in an air conditioner and consisting of a heat exchanger tube having an inlet header, an outlet header, and a heat exchanger fin, An inlet header in which only a supply pipe for supplying a heat exchange medium is installed on one side; A plurality of heat exchange tubes provided with a plurality of heat exchange fins on an outer circumferential surface thereof while one end is connected to the inlet header; An outlet header connected to the other end of the heat exchanger tube and draining the heat exchanged medium which is heat exchanged while passing through the heat exchanger tube to the discharge tube; Heat exchange coil for an air conditioner, characterized in that the inner space of the inlet header consists of a plurality of holes formed in the inner space of the inlet header so that it can be divided into the supply pipe side and the heat exchange tube side. In a heat exchanger coil installed in an air conditioner and consisting of a heat exchanger tube having an inlet header, an outlet header, and a heat exchanger fin, An inlet header having a supply pipe and a discharge pipe supplied with a heat exchange medium on one side at regular intervals, and a diaphragm separating the supply pipe and the discharge pipe in an inner space thereof; A plurality of heat exchange tubes provided with a plurality of heat exchange fins on an outer circumferential surface thereof while one end is connected to the inlet header; An outlet header connected to the other end of the heat exchanger tube and draining the heat exchanged medium which is heat exchanged while passing through the heat exchanger tube to the discharge tube; And a porous plate having a plurality of holes provided in the inner space of the inlet header so that the inner space in which the diaphragm of the inlet header is installed can be divided into the supply pipe side and the heat exchange tube side. The method according to claim 1 or 2, The outlet header is connected to an air pipe at an upper side thereof, and an air conditioner heat exchanger is configured to solve the vacuum formed at the outlet header by installing a valve, a vacuum releasing member, and an air vent at the air pipe. coil.

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