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CN-224230756-U - Condensed water treatment device for skid-mounted heat exchange system

CN224230756UCN 224230756 UCN224230756 UCN 224230756UCN-224230756-U

Abstract

The utility model provides a condensed water treatment device for a skid-mounted heat exchange system, and belongs to the field of heat exchange. The problems of low condensate water treatment efficiency and high power consumption are solved. The device comprises a shell, a drainage part, a driving part and a water collecting part, wherein the shell is a hollow shell, the hollow shell is rotationally connected with the water collecting part and used for condensing water, the near-ground side is communicated with the water collecting part, the drainage part is slidingly connected with the water collecting part and used for sliding on the water collecting part and pushing the water collecting part to the water collecting part when the water collecting part moves along with the circumference of the water collecting part, and the driving part is used for driving the water collecting part to rotate. The device is mainly used for treating condensed water of the skid-mounted heat exchange system.

Inventors

  • WANG YUCHI
  • JI KAIBIN

Assignees

  • 哈尔滨普发新能源装备科技有限公司

Dates

Publication Date
20260512
Application Date
20250429

Claims (10)

  1. 1. The utility model provides a sled dress formula is condensate water processing apparatus for heat transfer system which characterized in that includes: the shell (1) is a hollow shell, a condensed water collecting part (3) is rotationally connected in the shell, the shell is used for condensing moisture, and the near-ground side is communicated with the moisture collecting part (2); A drain part (4) which is connected to the condensed water collecting part (3) in a sliding way and is used for sliding on the condensed water collecting part (3) and pushing the condensed water collecting part (3) to the water collecting part (2) when the condensed water collecting part (3) moves along with the circumference of the condensed water collecting part (3); And the driving part (8) is used for driving the condensed water collecting part (3) to rotate.
  2. 2. The condensed water treating device for a skid-mounted heat exchange system as claimed in claim 1, wherein said moisture collecting portion (2) is provided with an evaporation preventing passage (9) for introducing condensed water into the inside of the moisture collecting portion (2) and reducing the evaporation rate.
  3. 3. The condensate water treatment device for a skid-mounted heat exchange system according to claim 2, wherein the evaporation prevention channels (9) are a plurality of partition plates which are arranged in a staggered manner and have a certain inclination angle.
  4. 4. The condensate water treatment device for the skid-mounted heat exchange system, as claimed in claim 1, 2 or 3, is characterized in that an injection channel (5) is arranged in the middle of the condensate water collecting part (3) in an axial penetrating manner, and a jet part (6) is coaxially arranged in the injection channel (5) and is used for jetting in the injection channel (5).
  5. 5. The condensed water treatment device for a skid-mounted heat exchange system according to claim 4, wherein the outlet end of the injection channel (5) along the jet flow direction is provided with a flow guiding part (7), and the diameter of the outlet end of the flow guiding part (7) is larger than that of the injection channel (5).
  6. 6. The condensed water treating device for a skid-mounted heat exchange system according to claim 1, 2, 3 or 5, wherein the water collecting portion (2) is provided with a drain pipe (10), and a filter screen is provided at a position where the drain pipe (10) communicates with the water collecting portion (2).
  7. 7. The device for treating condensed water for a skid-mounted heat exchange system according to claim 6, wherein said drain pipe (10) is communicated with a pressurizing pipe (11), said pressurizing pipe (11) is communicated with an outlet pipe (14), and a pressurizing part (12) is provided in said pressurizing pipe (11) for blocking said outlet pipe (14) to pressurize the drain pipe (10) when moving.
  8. 8. The condensed water treating device for a skid-mounted heat exchange system according to claim 7, wherein said pressurizing portion (12), said drain pipe (10) and said pressurizing pipe (11) have the same diameter, and a sealing portion is provided on an outer wall of said pressurizing portion (12).
  9. 9. The condensate water treatment device for a skid-mounted heat exchange system according to claim 7 or 8, wherein the pressurizing part (12) is connected with the movable end of a linear driving assembly (13), and the linear driving assembly (13) is used for driving the pressurizing part (12) to act.
  10. 10. The condensed water treating device for a skid-mounted heat exchange system according to claim 9, wherein the linear driving assembly (13) is a hydraulic cylinder or an electric cylinder.

Description

Condensed water treatment device for skid-mounted heat exchange system Technical Field The utility model belongs to the field of heat exchange, and particularly relates to a condensed water treatment device for a skid-mounted heat exchange system. Background The skid-mounted heat exchange system is easy to have condensed water at cold and hot alternating parts, is mostly treated in a condensed water diversion mode, has poor initiative, and is mostly provided with condensed water on a pipeline under the condition, and the service life is easily reduced due to the fact that the state is maintained for a long time. Some active condensation technologies have low efficiency, high power consumption and poor economical efficiency due to the fact that water naturally falls down in the condensation component. Disclosure of utility model In view of the above, the present utility model is directed to a condensate water treatment apparatus for a skid-mounted heat exchange system, so as to solve the problems of low condensate water treatment efficiency and high power consumption. In order to achieve the purpose, the utility model adopts the following technical scheme that the condensed water treatment device for the skid-mounted heat exchange system comprises: the shell is a hollow shell, and is rotationally connected with a condensed water collecting part for condensing water, and the near-ground side is communicated with the water collecting part; The drainage part is connected to the condensed water collecting part in a sliding way and is used for sliding on the condensed water collecting part and pushing the condensed water collecting part to the moisture collecting part when moving along with the circumference of the condensed water collecting part; And the driving part is used for driving the condensed water collecting part to rotate. Further, the moisture collecting portion is provided with an evaporation preventing passage for introducing condensed water into the inside of the moisture collecting portion and reducing the evaporation rate. Further, the evaporation preventing channels are a plurality of partition plates which are arranged in a staggered mode and have a certain inclination angle. Furthermore, the middle part of the condensed water collecting part is provided with an injection channel in an axial penetrating way, and a jet part is coaxially arranged in the injection channel and is used for jetting in the injection channel. Furthermore, the outlet end of the injection channel along the jet flow direction is provided with a flow guiding part, and the diameter of the outlet end of the flow guiding part is larger than that of the injection channel. Still further, the moisture collecting part is provided with a drain pipe, and a filter screen is arranged at the communicating part of the drain pipe and the moisture collecting part. Further, the drain pipe is communicated with the pressurizing pipe, the pressurizing pipe is communicated with the outlet pipe, and a pressurizing part is arranged in the pressurizing pipe and used for blocking the outlet pipe to pressurize the drain pipe during movement. Further, the diameters of the pressurizing part, the drain pipe and the pressurizing pipe are equal, and the outer wall of the pressurizing part is provided with a sealing part. Further, the pressurizing part is connected with the movable end of the linear driving assembly, and the linear driving assembly is used for driving the pressurizing part to act. Further, the linear driving assembly is a hydraulic cylinder or an electric cylinder. Compared with the prior art, the utility model has the beneficial effects that: 1. The device increases the contact frequency of the condensed water collecting part and the air flow in a rotating mode, meanwhile, the condensed water collecting part slides along the condensed water collecting part under the action of gravity in the rotating process, and the condensed water is scraped in the sliding process, so that the condensed water is quickly separated from the condensed water collecting part into the water collecting part for collection, the efficiency is improved, additional power is not needed, the separation process is accelerated by means of gravity, and the economic benefit is good; 2. The device forms a gas flow guiding function in the shell based on the flow expanding function of the flow guiding part through the matching of the injection channel and the jet part, and the condensation water collecting part is matched to rotate at a certain frequency, so that the condensation efficiency is improved; 3. The device can activate the communication position between the drain pipe and the water collecting part by the periodical motion of the pressurizing part to cause periodical change of pressure in the drain pipe, thereby preventing directional blockage. Drawings The accompanying drawings, which are included to provide a further understanding of the utility model and are