JPH0424367Y2 - - Google Patents

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to cooling water piping that connects an absorption chiller and a cooling tower, and in particular, provides a check valve by providing a check mechanism in the piping. This relates to something that can improve the reliability of piping without any problems.

[Conventional technology]

In conventional absorption refrigerators, as shown in FIG. 2, an inlet pipe 9 and an outlet pipe 13 are connected above and below the cooling water coil 2 of the absorption refrigerator 1, respectively. The end thereof is connected to the water supply port 6 of the cooling tower 5 and the discharge side of the cooling water circulation pump 8. An inlet pipe 9 is provided between the discharge port of the cooling water circulation pump 8 and the lower connection port 4 of the cooling water coil 2.
A check valve 10 is provided in the middle of the cooling water circulation pump 8 to prevent the cooling water in the cooling water coil 2 of the absorption chiller 1 from flowing back into the cooling tower water tank 7 when the cooling water circulation pump 8 stops. .

However, in conventional cooling water piping as described above, it is essential to use a check valve to prevent backflow of cooling water, so it is difficult to use a relatively expensive check valve. In addition, the reliability of the check valve is low, resulting in many problems in terms of maintenance of the device.

In addition, even if the cooling operation is stopped, the cooling water will remain in the cooling water coil 2 due to the action of the check valve, and if heating operation is performed in this state, this cooling water will become high-temperature cooling water. . When switching to cooling operation immediately thereafter, this high-temperature cooling water will be supplied to the cooling tower 5, and will be sprayed on the filling material in the cooling tower 5.
This often has an adverse effect, such as softening the filler.

[Purpose of invention]

The present invention eliminates the drawbacks of the conventionally used devices as described above. Among the cooling water piping that connects the absorption chiller and the cooling tower, the present invention specifically eliminates the check valve in the middle of the inlet piping. By eliminating this and forming a check mechanism using the piping, the reliability of the piping is improved, and during heating operation,
It is an object of the present invention to provide a device capable of discharging cooling water in a cooling water coil that is checked.

[Structure of the idea]

In this invention, the inlet piping that connects the lower part of the cooling water coil installed in the absorption chiller and the cooling water circulation pump of the cooling tower is formed into a substantially U-shape, and the uppermost part of the pipe is at approximately the same height as the upper part of the cooling water coil. A check mechanism is constructed by arranging it so that it is in the opposite direction.

Then, connect a riser pipe to the top of the inlet pipe, install an automatic air bleed valve in that pipe, connect a drain pipe near the lower connection port of the cooling water coil, and install a solenoid valve in that pipe. There is.

Therefore, in the cooling water piping of the present invention,
Even if cooling operation is performed immediately after heating operation, the cooling water in the cooling water coil can be discharged through the drain pipe when heating operation is switched, so that high-temperature cooling water can be discharged as in the case of conventional equipment. is no longer scattered on the filling material of the cooling tower, and it is possible to prevent any adverse effects on the filling material.

Furthermore, since the inlet piping of the present invention forms a check mechanism using the inlet piping and does not use components such as check valves, the reliability of the device is improved and maintenance of the device is reduced. It becomes possible to reduce the problems of

[Example of idea]

The configuration of the cooling water piping of the present invention will be explained according to the illustrated embodiment. As shown in FIG. 1, the apparatus of the present invention is composed of an absorption refrigerator 1 and a cooling tower 5. Both devices are connected using an inlet pipe 9 and an outlet pipe 13 to form a cooling water circulation path.

An outlet pipe 13 connected to the cooling water coil 2 of the absorption chiller 1 via the upper connection port 3 is configured to spray the filling material on the upper part of the cooling tower 5 via the water supply port 6 of the cooling tower 5. ,
It comes into contact with air while falling through the filling material,
The water is cooled and stored in the cooling tower water tank 7.

The inlet piping 9 of the present invention connects the discharge port of the cooling water circulation pump 8 and the lower connection port of the cooling water coil 2 to circulate the cooling water in the cooling tower water tank 7 to the cooling water coil. The inlet pipe 9 has a horizontal part a, a rising part b, an upper part c,
It consists of a descending part d and a lower part e, the height of the upper part c is set to be approximately the same as the upper part of the cooling water coil 2, and the lower part e is connected to the lower connection port 4 of the cooling water coil 2. has been done. Therefore, the inlet piping 9 of the present invention has a substantially inverted U-shape, so that the piping itself forms a check mechanism.

Further, a riser pipe 11 is connected to the upper part c of the inlet pipe 9 of the present invention, and an automatic air vent valve 11a is provided to the pipe 13, and a drain pipe 12 is connected to the middle of the lower part e. A solenoid valve 12a is provided. When the absorption refrigerator 1 is operating, the air collected in the upper part c of the inlet pipe 9 is automatically discharged via the automatic air vent valve 11a, and when the pump is stopped, the air is automatically vented. Air is sucked in from the valve, and the cooling water in the pipes a and b of the inlet pipe 9 and the outlet pipe 13 is returned to the cooling tower water tank 7 of the cooling tower 5, and the cooling water coil 2 and the inlet pipe are returned to the cooling tower water tank 7 of the cooling tower 5. Cooling water remains only in the pipes d and e of 9.

Next, the route of circulation of cooling water when using the device of the present invention will be explained.

(1) When operating the absorption chiller 1 normally, the cooling water in the cooling tower water tank 7 is circulated through the inlet piping 9 from pipe a to b to c by the cooling water circulation pump 8.
→d→e, the water is supplied from the lower connection port 4 to the cooling water coil 2, and heat exchange is performed.

The cooling water whose temperature has been raised by this heat exchange is passed from the upper connection port 3 of the cooling water coil 2 through the outlet pipe 13 to the water supply port 6 of the cooling tower 5.
It is sprayed on top of the filling material, comes into contact with air as it falls through the filling material, and is cooled.
The water is stored in the cooling tower water tank 7 again.

In the inlet pipe 9 of the present invention, pipe b,
Since c and d are constructed in a substantially gate-shaped or inverted U-shape, there is a possibility that air may accumulate in the upper part c. Therefore, the riser pipe 11 is connected to the highest part of the pipe 11. An automatic air vent valve 11a is provided to automatically exhaust air.

(2) When the cooling water circulation pump 8 stops, the pressure feeding of the cooling water stops, and air flows into the pipe c from the automatic air vent valve 11a, so that the air flows into the pipe c,
The cooling water in b returns to the cooling tower water tank 7, and the cooling water in the outlet pipe 13 is also discharged to the cooling tower. However, the cooling water in the pipes d and e and in the cooling water coil 2 will remain as they are. This is the check mechanism using the inlet pipe 9 of the present invention.

The check mechanism constituted by the inlet pipe 9 of the present invention operates reliably as long as there is no water leakage in the pipe, and has very high reliability.

(3) When performing heating operation next, switch the absorption chiller 1 to heating operation, open the solenoid valve 12a, and discharge the cooling water in the pipes d and e and the cooling water coil 2 from the drain pipe 12. .

[Effect of idea]

Since the cooling water pipe of the present invention has the above-mentioned configuration, the check mechanism is configured by the shape of the pipe itself, so its reliability can be improved. Since no valve is used, the manufacturing cost can be reduced.

Furthermore, when cooling operation and heating operation are repeated, even if cooling operation is performed immediately after heating operation, the cooling water will not be supplied to the cooling tower as high-temperature cooling water, and this will adversely affect the filling material in the cooling tower. This will be prevented.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram showing the configuration of an apparatus according to the present invention, and FIG. 2 is an explanatory diagram showing the configuration of a conventionally used apparatus. 1...Absorption refrigerator, 2...Cooling water coil, 3...
... Upper connection port, 4 ... Lower connection port, 5 ... Cooling tower, 6 ... Water supply port, 7 ... Cooling tower water tank, 8 ... Cooling water circulation pump, 9 ... Inlet piping, 10 ... Check valve, 11 ... riser, 1
1a... Automatic air vent valve, 12... Drain pipe, 12
a... Solenoid valve, 13... Outlet piping.

Claims (1)

[Scope of utility model registration request] In the cooling water piping that connects the absorption chiller and the cooling tower, the inlet piping connected to the discharge side of the cooling water circulation pump is formed into an approximately inverted U-shape, and its upper part is approximately at the same height as the upper end of the cooling water coil. The end of the descending part was connected to the cooling water coil inlet piping connection port of the absorption chiller, and an automatic air vent valve was installed at the top of the inlet piping, and a solenoid valve was installed at the bottom. Features cooling water piping.