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CN-224207803-U - Low-temperature ozone stirring device

CN224207803UCN 224207803 UCN224207803 UCN 224207803UCN-224207803-U

Abstract

The utility model provides a low-temperature ozone stirring device, which comprises a storage device, wherein one side of the storage device is provided with the stirring device, a pumping assembly is arranged between the storage device and the stirring device, a rotatable stirring blade is arranged in the stirring device, the stirring blade is of a multi-layer disc type structure, the storage device comprises a gas storage tank body, a gas storage cavity is arranged in the gas storage tank body, an interlayer is arranged between the gas storage cavity and the gas storage tank body and is used for circulating cooling medium, the stirring device comprises a stirring tank body, a vertical part is arranged in the stirring tank body, the vertical part is a multi-hole upright post, and the stirring blade is sleeved on the vertical part, so that the problem that the traditional ozone stirring device cannot realize effective ozone storage and continuous supply is solved.

Inventors

  • LUO LINFENG
  • LV JINLIANG
  • WEI YONG
  • YAO LIANG
  • HUANG WENQIU
  • JIN CHENG
  • XIANG YUANSHENG
  • SHENG WENXING

Assignees

  • 宜昌天睿生物医药有限责任公司

Dates

Publication Date
20260508
Application Date
20250422

Claims (8)

  1. 1. The low-temperature ozone stirring device is characterized by comprising a storage device (1), wherein a stirring device (3) is arranged on one side of the storage device (1), a pumping assembly (2) is arranged between the storage device (1) and the stirring device (3), a rotatable stirring blade (4) is arranged in the stirring device (3), and the stirring blade (4) is of a multi-layer disc type structure; The storage device (1) comprises a gas storage tank body (102), a gas storage cavity (110) is arranged in the gas storage tank body (102), an interlayer (107) is arranged between the gas storage cavity (110) and the gas storage tank body (102), and the interlayer (107) is used for circulating cooling mediums; the stirring device (3) comprises a stirring tank body (302), a vertical part (205) is arranged in the stirring tank body (302), the vertical part (205) is a multi-hole upright post, and stirring blades (4) are sleeved on the vertical part (205).
  2. 2. The low-temperature ozone stirring device is characterized in that the stirring blade (4) comprises a multi-layer air dispersing disc (401), a through hole is formed in the center of the air dispersing disc (401), an inner ring (403) is arranged at the edge of the through hole, an outer ring (402) is coaxially arranged on the outer side of the inner ring (403), and an inner blade (404) is arranged between the inner ring (403) and the outer ring (402); The inner ring (403) is coaxially sleeved with the vertical part (205), and the inner ring (403) is rotationally connected with the vertical part (205).
  3. 3. The low-temperature ozone stirring device according to claim 2, wherein a plurality of inner air outlet holes (407) are uniformly distributed on the circumferential surface of the inner ring (403), and the air outlet holes (407) are communicated with holes on the vertical part (205); a plurality of air outlet holes (406) are uniformly distributed on the circumferential surface of the outer ring (402), and a plurality of outer blades (405) are arranged on two sides of the air outlet holes (406).
  4. 4. A low temperature ozone stirring device as claimed in claim 3, characterized in that the outer blades (405) extend outwardly in a tangential direction of the outer circumference of the outer ring (402); the inner air outlet hole (407) is communicated with the outer air outlet hole (406), and the inner circle of the outer air outlet hole (406) is provided with a one-way valve.
  5. 5. The low-temperature ozone stirring device according to claim 1, wherein the top of the air storage tank body (102) is provided with a first air inlet pipe (104), a connecting pipe (108) is arranged below the first air inlet pipe (104), the connecting pipe (108) extends to the bottom of the interlayer (107), the bottom of the connecting pipe (108) is also provided with a surrounding pipe (109), and the surrounding pipe (109) surrounds the bottom outside the air storage cavity (110); The top of the gas storage tank body (102) is also provided with a first observation window (103), and the bottom of the gas storage tank body (102) is provided with a gas storage bracket (101).
  6. 6. The low-temperature ozone stirring device of claim 5, wherein a surrounding air hole (111) is further formed in one upward side of the surrounding pipe (109), a first air outlet pipe (105) is further formed in the top of the interlayer (107), the first air outlet pipe (105) is directly communicated with the interlayer (107), the first air inlet pipe (104) is used for conveying cooling medium into the interlayer (107), and the first air outlet pipe (105) is used for outputting the cooling medium in the interlayer (107).
  7. 7. The low-temperature ozone stirring device according to claim 1, wherein the pumping assembly (2) comprises a mounting seat (201), a pumping machine (204) is arranged above the mounting seat (201), one side of the pumping machine (204) is connected with a third air inlet pipe (202), and a second air inlet pipe (203) is arranged on the other side of the pumping machine; The third air inlet pipe (202) is communicated with the air storage cavity (110), and the second air inlet pipe (203) is communicated with a vertical part (205) in the stirring tank body (302).
  8. 8. The low-temperature ozone stirring device according to claim 7, wherein a plurality of heating pipes (206) are arranged outside the third air inlet pipe (202) and the second air inlet pipe (203).

Description

Low-temperature ozone stirring device Technical Field The utility model relates to the field of ozone disinfection, in particular to a low-temperature ozone stirring device. Background Ozone is used as a strong oxidant and has wide application in the fields of water treatment, air purification, food preservation and the like. However, ozone has instability, and is easily decomposed at normal temperature, so that storage becomes a problem, and the half life of ozone in water is only about 16 minutes in the conventional ozone storage device, so that the ozone needs to be prepared and used immediately after ozone is generated, and effective storage and continuous supply cannot be realized. In some production lines adopting ozone for disinfection treatment, only after the ozone water of the previous batch is sprayed, the ozone generation is waited again, and then the ozone generation and the ozone generation are mixed, so that the production efficiency is greatly limited, the production line type working requirements cannot be met, and the intermittent working mode not only increases the time cost, but also can influence the treatment effect due to untimely ozone supply. The low-temperature ozone stirring device provided by the invention can effectively solve the problem that ozone is not easy to store through the unique storage device and stirring device design, realizes continuous supply and efficient mixing of ozone, meets the working mode of an ozone mixing assembly line type, and obviously improves the production efficiency and the treatment effect. Disclosure of utility model The utility model mainly aims to provide a low-temperature ozone stirring device, which solves the problem that the traditional ozone stirring device cannot realize effective ozone storage and continuous supply. In order to solve the technical problems, the utility model adopts the technical scheme that the low-temperature ozone stirring device comprises a storage device, wherein one side of the storage device is provided with a stirring device, a pumping assembly is arranged between the storage device and the stirring device, and a rotatable stirring blade is arranged in the stirring device and is of a multi-layer disc type structure; The storage device comprises an air storage tank body, an air storage cavity is arranged in the air storage tank body, an interlayer is arranged between the air storage cavity and the air storage tank body, and the interlayer is used for circulating cooling medium; The stirring device comprises a stirring tank body, a vertical part is arranged in the stirring tank body, the vertical part is a multi-hole upright post, and stirring blades are sleeved on the vertical part. In the preferred scheme, the stirring blade comprises a plurality of layers of air dispersing discs, through holes are formed in the circle centers of the air dispersing discs, inner rings are arranged at the edges of the through holes, outer rings are coaxially arranged on the outer sides of the inner rings, and inner blades are arranged between the inner rings and the outer rings; the inner ring is coaxially sleeved with the vertical part, and the inner ring is rotationally connected with the vertical part. In the preferred scheme, a plurality of inner air outlet holes are uniformly distributed on the circumferential surface of the inner ring, and the air outlet holes are communicated with holes on the vertical part; The circumference of the outer ring is also uniformly provided with a plurality of air outlet holes, and two sides of each air outlet hole are provided with a plurality of outer blades. In the preferred scheme, the outer blades extend outwards along the tangential direction of the outer circumferential surface of the outer ring; the inner air outlet hole is communicated with the outer air hole, and the inner circle of the outer air hole is provided with a one-way valve. In the preferred scheme, the top of the air storage tank body is provided with a first air inlet pipe, a connecting pipe is arranged below the first air inlet pipe, the connecting pipe extends to the bottom of the interlayer, the bottom of the connecting pipe is also provided with a surrounding pipe, and the surrounding pipe surrounds the bottom outside the air storage cavity; The top of the gas storage tank body is also provided with a first observation window, and the bottom of the gas storage tank body is provided with a gas storage bracket. In the preferred scheme, the upward one side of surrounding pipe still is equipped with the surrounding air hole, and the top of intermediate layer still is equipped with first outlet duct, and first outlet duct is direct to be linked together with the intermediate layer, and first intake pipe is used for carrying cooling medium to the intermediate layer inside, and first outlet duct is arranged in exporting the cooling medium in the intermediate layer. In the preferred scheme, the pumping assembly comprises a mount