CN215003068U - Three-dimensional ribbed pipe water heat exchanger sinks husky - Google Patents

Abstract

The utility model discloses a three-dimensional ribbed pipe water-water heat exchanger with good sand settling effect, wherein a left sealed cabin is arranged at the left side end of the three-dimensional ribbed pipe water-water heat exchanger, an upper partition plate and a lower partition plate are arranged in the left sealed cabin at an upper horizontal interval and a lower horizontal interval, an inlet bin of a heat source medium is formed between the upper partition plate and the top of the left sealed cabin, and an outlet bin of the heat source medium is formed between the lower partition plate and the bottom of the left sealed cabin; the right sealed cabin is arranged at the right side end of the heat exchanger, a baffle plate is arranged in the upper portion of the right sealed cabin, a heat source backflow cabin is arranged in the right sealed cabin at the lower portion of the baffle plate, a row of sand cabins are formed in the right sealed cabin between the heat source backflow cabin and the baffle plate, three-dimensional rib pipes are connected between the inlet cabin and the right sealed cabin above the baffle plate, the right sealed cabin below the baffle plate and the left sealed cabin between the heat source backflow cabin and the upper and lower partition plates are communicated with each other through an upper group of three-dimensional rib pipes and a lower group of three-dimensional rib pipes respectively, and the three-dimensional rib pipes are also arranged between the heat source backflow cabin and the outlet cabin.

Description

Three-dimensional ribbed pipe water heat exchanger sinks husky

Technical Field

The utility model relates to a three-dimensional ribbed pipe water heat exchanger of desilting belongs to the indirect heating equipment's of oil field production usefulness improvement.

Background

At present, the heat exchangers used in oilfield production have the following problems: 1. the medium contains a large amount of silt, so that the silt deposition and blockage of the heat exchange tube are easily caused; 2. the medium contains complex components, and the inner wall of the heat exchange tube is easy to be scaled, corroded and damaged.

Disclosure of Invention

An object of the utility model is to provide a three-dimensional ribbed pipe water heat exchanger of desilting can enough reduce effectively or reduce silt and block, can ensure again that the heat transfer effect does not reduce.

The utility model aims at realizing the heat exchanger, a three-dimensional ribbed pipe water heat exchanger of desilting sets up the cold source entry on the bottom surface, sets up the cold source export on the top surface, the left side end of heat exchanger is setting up a left sealed cabin, and the left sealed cabin is that upper and lower horizontal interval is setting up upper and lower baffle in the room, and the upper baffle constitutes the entry storehouse of heat source medium with connecting between the left sealed cabin top of a heat source inlet pipe, and the outlet storehouse of heat source medium is constituted between lower baffle and the left sealed cabin bottom of connecting a heat source outlet pipe; a right sealed cabin is arranged at the right side end of the heat exchanger, a zigzag baffle plate is arranged in the upper part of the right sealed cabin, a heat source backflow cabin is arranged in the right sealed cabin at the lower part of the baffle plate, a sand discharge cabin is formed in the right sealed cabin between the heat source backflow cabin and the baffle plate, and a sand discharge valve is arranged at the bottom of the sand discharge cabin; the three-dimensional ribbed tubes are connected between the inlet bin and the right sealed cabin above the baffle plate, the right sealed cabin below the baffle plate and the left sealed cabin between the heat source backflow bin and the upper and lower partition plates are respectively communicated with each other through an upper group of three-dimensional ribbed tubes and a lower group of three-dimensional ribbed tubes, and the three-dimensional ribbed tubes are also arranged between the heat source backflow bin and the outlet bin.

The heat exchanger of the utility model is additionally provided with a sand settling bin in the liquid supply direction of the heat source; a baffle plate is additionally arranged in the sand settling bin to guide the flowing direction of the medium, so that the medium enters the heat exchanger, is separated from the contained silt and then enters the heat exchange tube again for heat exchange, and the silt is prevented from being deposited in the heat exchange tube; a timing automatic sand discharge electric valve is additionally arranged at the lower opening of the sand settling bin, and sediment deposited in the sand settling bin is discharged at a timing manner, so that the heat exchange tube is prevented from being blocked; the heat exchange tube adopts a three-dimensional inner and outer ribbed tube technology, and reduces scaling and corrosion of media in the tube on the tube wall. The heat exchanger is consistently favored by field users in the use process of the oil field production field.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 is a schematic view of the front view cross-sectional structure of the present invention.

Detailed Description

A kind of desilting three-dimensional ribbed tube water heat exchanger, as shown in figure 1, set up the cold source inlet 6 on the bottom surface of the heat exchanger 7, set up the cold source outlet 5 on the top surface, the left end of the said heat exchanger 7 sets up a left sealed cabin 3, present in the left sealed cabin 3 and set up the upper and lower baffle 4 horizontally at intervals, form the inlet storehouse 14 of the heat source medium between the left sealed cabin top that connects a heat source inlet pipe 1 and the upper baffle, form the outlet storehouse 15 of the heat source medium between the left sealed cabin bottom that connects a heat source outlet pipe 2 and the lower baffle; a right sealed cabin 10 is arranged at the right side end of the heat exchanger 7 in a sealed mode through a flange 9, a zigzag baffle plate 11 is arranged in the upper portion of the right sealed cabin 10, a heat source backflow cabin 12 is arranged in the right sealed cabin at the lower portion of the baffle plate 11, a sand discharge cabin 13 is formed in the right sealed cabin between the heat source backflow cabin 12 and the baffle plate 11, a sand discharge valve 16 is arranged at the bottom of the sand discharge cabin 13, and the sand discharge valve 16 is an electromagnetic sand discharge valve and can automatically discharge sand at regular time; the three-dimensional ribbed tubes 8 are connected between the inlet bin 14 and the right sealed cabin above the baffle plate 11, the right sealed cabin below the baffle plate 11 and the left sealed cabin between the heat source backflow bin 12 and the upper and lower partition plates are respectively communicated with each other through an upper and a lower groups of three-dimensional ribbed tubes, and the three-dimensional ribbed tubes communicated with each other are also arranged between the heat source backflow bin 12 and the outlet bin 15.

Claims (1)

1. The utility model provides a three-dimensional ribbed pipe water heat exchanger of desilting, is setting up cold source entry on the bottom surface, is setting up cold source export on the top surface, characterized by: a left sealed cabin is arranged at the left end of the heat exchanger, an upper partition plate and a lower partition plate are horizontally arranged in the left sealed cabin at intervals from top to bottom, an inlet cabin of heat source media is formed between the upper partition plate and the top of the left sealed cabin connected with a heat source inlet pipe, and an outlet cabin of the heat source media is formed between the lower partition plate and the bottom of the left sealed cabin connected with a heat source outlet pipe; a right sealed cabin is arranged at the right side end of the heat exchanger, a zigzag baffle plate is arranged in the upper part of the right sealed cabin, a heat source backflow cabin is arranged in the right sealed cabin at the lower part of the baffle plate, a sand discharge cabin is formed in the right sealed cabin between the heat source backflow cabin and the baffle plate, and a sand discharge valve is arranged at the bottom of the sand discharge cabin; the three-dimensional ribbed tubes are connected between the inlet bin and the right sealed cabin above the baffle plate, the right sealed cabin below the baffle plate and the left sealed cabin between the heat source backflow bin and the upper and lower partition plates are respectively communicated with each other through an upper group of three-dimensional ribbed tubes and a lower group of three-dimensional ribbed tubes, and the three-dimensional ribbed tubes are also arranged between the heat source backflow bin and the outlet bin.

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