JPS63248421A - Steam trapping device - Google Patents

Abstract

PURPOSE:To carry out continuous operation by forming a conduit with a flexible material, disposing it vertically, and deforming it by the force working from the outside so as to drop down the ice sticking to the inner wall surface of the conduit. CONSTITUTION:The conduit 7 consisting of the flexible material is disposed in a vertical direction, and an ice discharge opening 8 is provided to the lower end of the conduit 7, and double sluice valves 12 consisting of an upper sluice valve 10 and a lower sluice valve 11 to the front (the upper side) of the ice discharge opening 8, and a conduit deforming means 14 deforming the conduit from the outside is provided on a refrigerating chamber 13. The upper sluice valve 10 is opened and the lower sluice valve 11 is closed in advance, and, when ice is stuck and accumulated on the inner wall surface of the conduit 7, the conduit deformation means 14 is put in action to deform the conduit 7 so that the ice drops down on the lower sluice valve 11. Then, the upper sluice valve 10 is closed and the lower sluice valve 11 is opened to discharge the ice from the discharge opening 8 to the ice receiving vessel 25. After discharging, the lower sluice valve 11 is closed, and the space 15 between the valves 10, 11 is evacuated to be prepared for the next operation.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a water vapor trap device that cools low-temperature gas containing water vapor in a reduced pressure state with a refrigerant, and condenses and removes the water vapor as ice.

[Conventional technology]

Conventionally, when removing water vapor from low-temperature gas containing water vapor in a reduced pressure state, as shown in FIG. The water vapor is then condensed as ice 3 on the inner wall surface of the conduit 1 and removed. 4 is a refrigerant inlet, and 5 is a refrigerant outlet.

[Problem that the invention seeks to solve]

However, the conventional method described above is a batch method, which has the disadvantage that operation must be stopped and ice removed when a large amount of ice adheres or accumulates on the inner wall of the pipe, making continuous operation impossible. there were.

The present invention has been developed to solve the above-mentioned disadvantages, and is capable of continuous operation by deforming the pipe using an external force and causing ice adhering to the inner wall of the pipe to fall. The purpose is to provide a water vapor trap device that can

[Means for solving problems]

The water vapor trap device of the present invention will be described with reference to the drawings. The water vapor trap device cools a gas conduit containing water vapor from the outside in a freezing chamber, and condenses the water vapor as ice on the inner wall surface of the conduit. A conduit 7 is formed of a flexible material and arranged approximately vertically, an ice discharge port 8 is provided at the lower end of the conduit, a double gate valve 12 is provided immediately before the ice discharge port, and a double gate valve 12 is provided at the upper side of the double gate valve. A conduit deformation mechanism 14 for deforming the conduit 7 from the outside is provided in the freezing chamber 13, and a vacuum evacuation tube 1 is connected to a space 15 surrounded by the double gate valve 12 and communicated with a vacuum source.
It is characterized by connecting 6.

[For production]

When ice adheres to and accumulates on the inner wall surface of the conduit 7 made of a flexible material, the conduit deformation mechanism 14 deforms the conduit 7 and causes the ice to fall. At this time, the upper gate valve 10 of the double gate valve 12 is opened and the lower gate valve 11 is closed in advance, and ice is allowed to fall onto the lower gate valve. Then, the upper gate valve 10 is closed, the lower gate valve 11 is opened, and the ice falls and is discharged from the ice outlet 8. After that, the lower gate valve 11 is closed, and the double gate valve 12 is closed.
The space 15 surrounded by is evacuated.

〔Example〕

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. However, the components described in this example,
Unless otherwise specified, the shape, relative arrangement thereof, etc. are not meant to limit the scope of the present invention to these, but are merely illustrative examples.

In FIG. 1, reference numeral 7 denotes a conduit made of a flexible material, which is arranged in a substantially vertical direction. An ice discharge port 8 is provided at the lower end of the conduit 7, and a double gate valve 12 consisting of an upper gate valve 10 and a lower gate valve 11 is provided immediately before (on the upper side) of this ice discharge port 8.
is provided.

A freezing chamber 13 is provided above the double gate valve 12 so as to surround the conduit 7, and a conduit deforming mechanism 14 for deforming the conduit 7 from the outside is provided within the freezing chamber. Further, a vacuum tube 16 communicating with a vacuum source (not shown) is connected to a space 15 surrounded by the double gate valve 12.

As an example of the conduit deformation mechanism 14, as shown in FIGS. 2 and 3, there is a structure in which a compression link 17 is moved to deform the conduit 7 made of a flexible material via a pushing member 18. used.

20 is a gas inlet, 21 is a gas outlet, 22 is a refrigerant inlet, 2
3 is a refrigerant outlet, 24 is aggregated and adhered ice, and 25 is a water receiver. Note that the portion formed of flexible material is at least the portion of the conduit located within the freezing chamber 13, and the double gate valve portion of the conduit, the gas port 20, the gas outlet 21, etc. are formed of flexible material. or may be formed from conventional hard, inflexible materials.

In the water vapor trap device configured as above,
When ice adheres to and accumulates on the inner wall surface of the conduit 7 made of a flexible material, the conduit deformation mechanism is operated to deform the conduit 7 and cause the ice to fall, as shown in FIG. At this time, the upper gate valve 10 of the double gate valve 12 is opened and the lower gate valve 11 is closed in advance so that ice falls onto the lower gate valve 11.

Then, as shown in FIG. 5, the upper gate valve 10 is closed and the lower gate valve 11 is opened to drain the ice from the ice outlet 8 to the water receiver 25.
Excrete inside.

Thereafter, as shown in FIG. 6, the lower gate valve 11 is closed and the space 15 surrounded by the upper gate valve 10 and the lower gate valve 11 is evacuated to prepare for the next operation.

〔Effect of the invention〕

As described above, the water vapor trap device of the present invention is configured to deform the conduit made of a flexible material by the conduit deformation mechanism and drop ice that has adhered or accumulated on the inner wall surface of the conduit. This has the effect of eliminating clogging of the conduit and allowing continuous operation.

[Brief explanation of drawings]

FIG. 1 is a vertical cross-sectional explanatory diagram showing an example of the water vapor trap device of the present invention, FIGS. 2 and 3 are cross-sectional explanatory diagrams of a conduit and a conduit deformation mechanism, and FIGS. FIG. 7 is an explanatory vertical cross-sectional view of a conventional water vapor trap device. 1... Conduit, 2.13... Freezing room, 3.24...
Ice, 4.22... Refrigerant population ζ 5.23... Refrigerant outlet, 7... Conduit made of flexible material, 8... Ice discharge port, 10... Upper gate valve, 11.・・Lower gate valve, 1
2...Double gate valve, 14...Pipe deformation mechanism, 15.
...Space, 16... Vacuum tube, 17... Compression link, 18... Pushing member, 20... Gas inlet, 21...
...Gas outlet, 25...Water receiver Fig. 2 t Fig. J

Claims (1)

[Claims] 1. In a water vapor trap device that cools a gas conduit containing water vapor from the outside in a freezing chamber and condenses the water vapor as ice on the inner wall surface of the conduit, the conduit is formed of a flexible material and arranged approximately vertically, An ice discharge port is provided at the lower end of the conduit, a double gate valve is provided immediately before the ice discharge port, and a pipe deformation mechanism that deforms the conduit from the outside is installed in the freezing chamber above the double gate valve. A water vapor trap device characterized in that a vacuum tube communicating with a vacuum source is connected to a space surrounded by a valve.