CN210664027U - Circular evaporation condensation structure - Google Patents

Abstract

The utility model relates to a circular evaporation and condensation structure, which is provided with a circular shell, wherein the inside of the shell is provided with a cooling tube bundle which is integrally arranged in a circular ring shape, the shell is also provided with a cooling water inlet and a cooling water outlet, the cooling water inlet is communicated with an inlet at one end of the cooling tube bundle, and the cooling water outlet is communicated with an outlet at the other end of the cooling tube bundle; a liquid level detection port, a safety valve and a pressure gauge are arranged on the side wall of the shell, wherein the liquid level detection port is used for detecting the liquid level height in the shell, and the safety valve and the pressure gauge are used for monitoring and adjusting the pressure in the shell; the condensation structure can be fully suitable for the cooling treatment of various circular or approximately circular structural components, and has good cooling effect and high efficiency.

Description

Circular evaporation condensation structure

Technical Field

The utility model belongs to the technical field of the heat exchanger technique and specifically relates to a circular evaporation condensation structure.

Background

In the power generation industry or other related industries, when a motor works for a long time, a coil generates heat very severely, so that the coil needs to be cooled in time, and related heat exchange treatment equipment is involved.

Disclosure of Invention

The utility model aims at providing a circular evaporation condensation structure to above-mentioned condition, this condensation structure can fully adapt to various circular or approximate circular shape structural component's cooling treatment, and the cooling effect is good, and is efficient.

The utility model has the following concrete scheme: a circular evaporation and condensation structure is provided with a circular shell, wherein cooling tube bundles which are integrally distributed in a circular ring shape are arranged in the shell, the shell is also provided with a cooling water inlet and a cooling water outlet, the cooling water inlet is communicated with an inlet at one end of the cooling tube bundles, and the cooling water outlet is communicated with an outlet at the other end of the cooling tube bundles; the side wall of the shell is provided with a liquid level detection port, a safety valve and a pressure gauge, wherein the liquid level detection port is used for detecting the liquid level in the shell, and the safety valve and the pressure gauge are used for monitoring and adjusting the pressure in the shell.

Furthermore, in the present invention, the cooling tube bundle is composed of a plurality of cooling tubes, and each cooling tube is set to adopt S-shaped winding and is integrally circular ring structure.

Further, in the utility model discloses in the well middle and upper position in the casing is arranged in to cooling tube bank, cooling tube bank's top headspace, cooling tube bank's below space is used for placing the part of treating the cooling.

The utility model discloses a design into annular shape or approximate annular shape's structure with evaporation condensation structure, can accomplish the cooling work of various annular shapes or approximate annular shape's heating structure part very high-efficiently, the practicality is strong, and heat exchange efficiency is high, can last the recycle moreover.

Drawings

Fig. 1 is a schematic view of the structure of the main view direction of the present invention;

fig. 2 is a schematic view of the top view structure of the present invention;

FIG. 3 is a schematic diagram of the P-direction structure of FIG. 2;

fig. 4 is a schematic diagram of the structure in the direction of K in fig. 2.

In the figure: the device comprises a shell, 2 cooling pipes, 3 cooling water outlets, 4 cooling water inlets, 5 cooling pipe bundles, 6 liquid level detection ports, 7 pressure gauges and 8 safety valves.

Detailed Description

Referring to fig. 1-4, the utility model relates to a circular evaporation and condensation structure, which comprises a circular casing 1, a cooling tube bundle 5 arranged in a circular ring shape is arranged in the casing, a cooling water inlet 4 and a cooling water outlet 3 are arranged on the casing, the cooling water inlet is communicated with an inlet at one end of the cooling tube bundle, and the cooling water outlet is communicated with an outlet at the other end of the cooling tube bundle; and a liquid level detection port 6, a safety valve 8 and a pressure gauge 7 are arranged on the side wall of the shell, wherein the liquid level detection port is used for detecting the liquid level in the shell, and the safety valve and the pressure gauge are used for monitoring and adjusting the pressure in the shell.

Furthermore, in this embodiment the cooling tube bundle is composed of a plurality of cooling tubes 2, each cooling tube is wound in an S-shape from top to bottom and the whole cooling tube is arranged in a circular structure, that is, each cooling tube is arranged in an S-shape from top to bottom when viewed from the side, and is arranged in a circular shape when viewed from the top, that is, the cooling tubes are wound in an S-shape from top to bottom and then integrally bent to form a circular shape.

Further, in this embodiment, the cooling tube bundle is disposed at an upper middle portion in the housing, a space is reserved above the cooling tube bundle, and a space below the cooling tube bundle is used for placing a component to be cooled.

The evaporation and condensation structure in the embodiment is mainly developed aiming at the cooling problem of a circular coil or other circular ring-shaped heating parts, when the evaporation and condensation structure is in actual use, the circular ring-shaped heating parts are usually arranged in a space below a cooling tube bundle in a shell, for example, the heating coil needs to be arranged in the shell in a surrounding way, then sufficient evaporation media are added into the space in the shell, the amount of the specifically added evaporation media is detected through a liquid level detection port, a certain space is reserved above the inside of the shell, meanwhile, the safety pressure value in the shell needs to be controlled due to the boiling point of the evaporation media, and at the moment, the safety valve is monitored through a pressure gauge to carry out pressure relief so as to achieve the safety pressure value; in the process of heat exchange, an evaporation medium enters the outer cavity of the cooling tube bundle from the lower part of the inner part of the shell of the condensation structure, exchanges heat with tube pass cooling water, and falls back to the shell outside the coil after being condensed in the top space in the shell to finish closed self-circulation.

The utility model discloses a design into annular shape or approximate annular shape's structure with evaporation condensation structure, can accomplish the cooling work of various annular shapes or approximate annular shape's heating structure part very high-efficiently, the practicality is strong, and heat exchange efficiency is high, can last the recycle moreover.

Claims (3)

1. A circular evaporation condensation structure which characterized in that: the cooling water inlet is communicated with an inlet at one end of the cooling tube bundle, and the cooling water outlet is communicated with an outlet at the other end of the cooling tube bundle; the side wall of the shell is provided with a liquid level detection port, a safety valve and a pressure gauge, wherein the liquid level detection port is used for detecting the liquid level in the shell, and the safety valve and the pressure gauge are used for monitoring and adjusting the pressure in the shell.

2. A circular evaporative condensation structure as claimed in claim 1, wherein: the cooling tube bundle is composed of a plurality of cooling tubes, and each cooling tube is wound in an S shape and is arranged in an annular structure integrally.

3. A circular evaporative condensation structure as claimed in claim 1, wherein: the cooling tube bundle is arranged at the middle-upper part in the shell, a space is reserved above the cooling tube bundle, and a space below the cooling tube bundle is used for placing components to be cooled.

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