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CN-224207916-U - Micro-nano bubble generator with controllable micro-nano bubble water temperature

CN224207916UCN 224207916 UCN224207916 UCN 224207916UCN-224207916-U

Abstract

The utility model discloses a micro-nano bubble generator with controllable micro-nano bubble water temperature, which comprises a micro-nano bubble generator main body, wherein an input pipe fitting I is arranged at the input end of the micro-nano bubble generator main body, the output end of the micro-nano bubble generator main body is connected with a temperature control component through an input pipe fitting II, the temperature control component comprises a mounting bracket, a cooling fan and a cooler, the cooler is arranged at the bottom of the mounting bracket, the cooling fan is fixed at the top of the mounting bracket, and a pipeline II and a pipeline I are respectively fixed at one side of the cooler. According to the utility model, the generated micro-nano bubble generator main body can be effectively cooled by the cooling liquid, the temperature of the cooling liquid is monitored in real time by using the temperature sensor, and the reflux of the cooling liquid which does not reach the standard is realized by matching the first three-way electromagnetic valve, the second three-way electromagnetic valve and the reflux pipe, so that the temperature of the outputted cooling liquid is ensured to be in a set range, and the accurate requirements of different application scenes on the temperature are met.

Inventors

  • QIAN XIAODONG
  • ZHOU WENDONG
  • LUO WEIWEI

Assignees

  • 上海众净环保科技有限公司

Dates

Publication Date
20260508
Application Date
20250603

Claims (8)

  1. 1. The utility model provides a micro-nano bubble generator that micro-nano bubble water temperature can be controlled, includes micro-nano bubble generator main part (14), its characterized in that, input pipe fitting first is installed to micro-nano bubble generator main part (14) input, and micro-nano bubble generator main part (14) output is connected with temperature control assembly through input pipe fitting second, and temperature control assembly includes installing support (1), radiator fan (2) and cooler (18), cooler (18) are installed in installing support (1) bottom, and radiator fan (2) are fixed in installing support (1) top, and cooler (18) one side is fixed with pipeline two (19) and pipeline one (9) respectively, and cooler (18) other one side is fixed with pipeline three (20) and pipeline four (21) respectively, and fixed connection between pipeline two (19) and the input pipe fitting second, is connected between pipeline one (9) and the output pipe fitting.
  2. 2. The micro-nano bubble generator with controllable micro-nano bubble water temperature according to claim 1, wherein the first input pipe fitting comprises an inlet pipe (10), a second conveying pump (11) and a second connecting pipe (12), the second conveying pump (11) is connected with the input end of the second conveying pump (11) through the second connecting pipe (12), and the inlet pipe (10) and the second conveying pump (11) are fixed through bolts.
  3. 3. The micro-nano bubble generator with controllable micro-nano bubble water temperature according to claim 1, wherein the second input pipe fitting comprises a second three-way electromagnetic valve (15), a third connecting pipe (16) and a flowmeter (17), the flowmeter (17) is fixed at one end of the second pipeline (19), the second three-way electromagnetic valve (15) is fixed on the micro-nano bubble generator main body (14), and the third connecting pipe (16) is fixed between the second three-way electromagnetic valve (15) and the flowmeter (17).
  4. 4. The micro-nano bubble generator with controllable micro-nano bubble water temperature according to claim 1, wherein the output pipe comprises a first three-way electromagnetic valve (5), a first conveying pump (6) and a first connecting pipe (7), the first connecting pipe (7) is fixed at one end of the first pipeline (9), the first conveying pump (6) is fixed at one end of the first connecting pipe (7) far away from the first pipeline (9), and the first three-way electromagnetic valve (5) is fixed at one end of the first conveying pump (6) far away from the first connecting pipe (7).
  5. 5. The micro-nano bubble generator with controllable micro-nano bubble water temperature according to claim 4, wherein the end of the first three-way electromagnetic valve (5) far away from the first conveying pump (6) is fixed with a discharge pipe (4).
  6. 6. The micro-nano bubble generator with controllable micro-nano bubble water temperature according to claim 5, wherein the first three-way electromagnetic valve (5) and the second three-way electromagnetic valve (15) are connected through a return pipe (3).
  7. 7. The micro-nano bubble generator with controllable micro-nano bubble water temperature according to claim 6, wherein a temperature sensor (8) is installed at the top of the first connecting pipe (7).
  8. 8. The micro-nano bubble generator with controllable micro-nano bubble water temperature according to claim 7, wherein a control panel (13) is installed on the side wall of the micro-nano bubble generator main body (14).

Description

Micro-nano bubble generator with controllable micro-nano bubble water temperature Technical Field The utility model relates to the technical field of micro-nano bubble generators, in particular to a micro-nano bubble generator with controllable micro-nano bubble water temperature. Background The micro-nano bubble technology is taken as an emerging water treatment and material application technology, has wide application prospect in a plurality of fields in recent years, and is a bubble with a diameter of micron to nano level, and plays an important role in a plurality of industries due to the unique physicochemical properties of large specific surface area, internal pressurization, surface electrification and the like; However, the stability of the micro-nano bubbles is obviously affected by temperature, when the temperature of the generation environment where the micro-nano bubbles are positioned is too high, when the micro-nano bubbles are generated by the micro-nano bubble generator, the thermal movement of gas molecules in the bubbles is aggravated, the internal pressure of the bubbles is increased, the bubble cracking speed is accelerated, the existing time of the micro-nano bubbles in water is greatly shortened, the expected effect is further affected, different processes and scenes have specific requirements on the temperature of the micro-nano bubbles in practical application, and if the temperature of the micro-nano bubble water cannot be effectively controlled, the application effect and stability of the micro-nano bubbles in the corresponding field are difficult to ensure; Most of the existing micro-nano bubble generators in the market only concentrate on bubble generation, lack the function of effectively controlling the generation temperature of micro-nano bubbles, and partially have simple temperature regulation means, but have the problems of low temperature control precision, low regulation efficiency and the like, and cannot meet the requirements of high-precision and high-stability application scenes, so that research and development of the micro-nano bubble generator capable of accurately controlling the generation temperature of micro-nano bubble water has important practical significance. Disclosure of utility model The utility model aims to solve the defects in the prior art, and provides a micro-nano bubble generator with controllable micro-nano bubble water temperature. In order to achieve the above purpose, the present utility model adopts the following technical scheme: The utility model provides a micro-nano bubble generator that micro-nano bubble water temperature can be controlled, includes micro-nano bubble generator main part, input pipe fitting I is installed to micro-nano bubble generator main part input, and micro-nano bubble generator main part output is connected with temperature control assembly through input pipe fitting II, and temperature control assembly includes installing support, radiator fan and cooler, the cooler is installed in the installing support bottom, and radiator fan is fixed in the installing support top, and cooler one side is fixed with pipeline II and pipeline I respectively, and cooler other one side is fixed with pipeline III and pipeline IV respectively, and fixed connection between pipeline II and the input pipe fitting II, is connected between pipeline I and the output pipe fitting. As a still further scheme of the utility model, the first input pipe fitting comprises an inlet pipe, a second conveying pump and a second connecting pipe, the second conveying pump is connected with the input end of the second conveying pump through the second connecting pipe, and the inlet pipe and the second conveying pump are fixed through bolts. As a still further scheme of the utility model, the input pipe fitting II comprises a three-way electromagnetic valve II, a connecting pipe III and a flowmeter, wherein the flowmeter is fixed at one end of the pipeline II, the three-way electromagnetic valve II is fixed on the micro-nano bubble generator main body, and the connecting pipe III is fixed between the three-way electromagnetic valve II and the flowmeter. As a still further scheme of the utility model, the output pipe fitting comprises a three-way electromagnetic valve I, a delivery pump I and a connecting pipe I, wherein the connecting pipe I is fixed at one end of a pipeline I, the delivery pump I is fixed at one end of the connecting pipe I far away from the pipeline I, and the three-way electromagnetic valve I is fixed at one end of the delivery pump I far away from the connecting pipe I. As a still further proposal of the utility model, one end of the first three-way electromagnetic valve far away from the first delivery pump is fixed with a discharge pipe. As a still further scheme of the utility model, the first three-way electromagnetic valve and the second three-way electromagnetic valve are connected through a return pipe. As a still further proposa