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CN-121993987-A - Improved equipment and improved method based on traditional refrigeration house

CN121993987ACN 121993987 ACN121993987 ACN 121993987ACN-121993987-A

Abstract

The application discloses an improvement device and an improvement method based on a traditional refrigeration house, and relates to the technical field of refrigeration houses, the device comprises a device main body, wherein the device main body comprises a house body and two refrigeration houses, the two refrigeration houses are respectively positioned in the house body and are respectively positioned at two sides of the house body along the length direction, a first inlet door is respectively arranged at two sides of the house body along the length direction, a second inlet door is respectively arranged at one side of the two refrigeration houses, which is far away from each other, a circulating gas component is arranged between the two refrigeration houses, a plurality of water cooling components are arranged between the two refrigeration houses along the width direction of the house body, a plurality of compressors are arranged between the two refrigeration houses, the compressors are respectively positioned at two sides of the water cooling components along the length direction of the house body, one end of each compressor is communicated with the refrigeration house, the other end of each compressor is communicated with the upper end of each water cooling component, an air inlet pipe is arranged between the refrigeration house and the water cooling components, and cold air in the water cooling components enters the refrigeration houses through the air inlet pipe. The application has the effect of improving the running stability of the refrigeration house equipment.

Inventors

  • CHEN LONG
  • ZHANG LIMEI
  • MING YANFANG
  • XU JUNFEI
  • GUO WEIQIANG
  • CHEN FEIXIANG
  • SHEN JUNTAO
  • JIANG WEI
  • Wen Cuilan
  • GU SONG
  • QIAN RONG

Assignees

  • 国药集团上海血液制品有限公司

Dates

Publication Date
20260508
Application Date
20260311

Claims (8)

  1. 1. An improved device based on a traditional cold store comprises a device main body (1), and is characterized in that the device main body (1) comprises a store body (11) and two cold stores (12), the two cold stores (12) are all arranged in the store body (11) and are respectively arranged at two sides of the store body (11) along the length direction, the two sides of the store body (11) along the length direction are respectively provided with a first entrance door (13), one side of the two cold stores (12) away from each other is respectively provided with a second entrance door (14), the first entrance door (13) and the second entrance door (14) are opposite, a circulating gas component (2) is arranged between the two cold stores (12), a plurality of water-cooling components (3) are arranged between the two cold stores (12), a plurality of compressors (15) are arranged between the two cold stores (12) along the width direction of the store body (11), a plurality of compressors (15) are respectively arranged at two sides of the water-cooling components (3) along the length direction of the store body (11), one end of each compressor (15) is communicated with the cold store (12), the other end of each compressor (15) is communicated with the air inlet pipe (12), a water-cooling component (3) is arranged between the end of each water-cooling component (3) and the air inlet pipe (12), the cold air in the water cooling assembly (3) enters the refrigerator (12) through the air inlet pipe (16).
  2. 2. The improvement equipment based on traditional freezer of claim 1, wherein circulating gas subassembly (2) include a plurality of fans (21) and temperature sensor (22), and temperature sensor (22) fixed connection is inside bin body (11) to be located between two freezer (12), a plurality of fans (21) fixed connection are in bin body (11) upper end along width direction's one side to be located between two freezer (12), and one side that is kept away from fan (21) of bin body (11) is opened and is had air intake (23).
  3. 3. The improvement equipment based on traditional freezer of claim 2, wherein guide plates (24) are fixedly arranged in the bin body (11), the guide plates (24) are positioned between two freezers (12) and are positioned on one side of the bin body (11) close to the air inlet (23), and the guide plates (24) are obliquely arranged from top to bottom along the direction that the guide plates (24) point to the fan (21).
  4. 4. The improvement on the conventional refrigerator-based equipment according to claim 1, wherein the water cooling assembly (3) comprises a water tank (31), a water pump (32), a sprayer (33), a base (34), a plurality of fin pipes (35) and a cleaning piece (4), the base (34) is fixedly connected inside the refrigerator (11) and is positioned between two refrigerators (12), the fin pipes (35) are vertically and fixedly connected to the upper end of the base (34) and are arranged along the length direction of the refrigerator (11), the fin pipes (35) and the base (34) are all hollow and are communicated, the air inlet pipe (16) is communicated with the base (34), the compressor (15) is communicated with the upper end of the fin pipes (35), the water tank (31) and the water pump (32) are fixedly connected to the upper end of the refrigerator (11), the sprayer (33) is fixedly connected to the inside the refrigerator (11) and is positioned right above the base (34), one end of the water pump (32) is communicated with the water tank (31), and the other end of the water pump (32) penetrates through the refrigerator (11) to be communicated with the sprayer (4) to the surface of the cleaner (35) for cleaning the cleaning piece.
  5. 5. The improved equipment based on the traditional refrigeration house according to claim 1, wherein a plurality of water outlets (17) are formed in the lower end portion of the house body (11), the water outlets (17) are located between the two refrigeration houses (12), a water collecting house (18) is fixedly arranged in the lower end portion of the house body (11), and the water collecting house (18) is opposite to the water outlets (17).
  6. 6. The improvement equipment based on traditional freezer of claim 4, wherein cleaning member (4) includes waterproof motor (41), lead screw (42), connecting plate (43), a plurality of scraping rings (44), a plurality of scraper blades (45) and a plurality of reset spring (46), waterproof motor (41) are along vertical fixed connection in the one side along the width direction of storehouse body (11) in base (34), lead screw (42) and waterproof motor (41) output shaft coaxial fixed connection, lead screw (42) pass connecting plate (43) to with connecting plate (43) threaded connection, scraping rings (44) and fin tube (35) one-to-one, scraping rings (44) cover are established in fin tube (35) outside, and along vertical and fin tube (35) sliding connection, a plurality of scraping rings (44) all are connected with connecting plate (43) fixed connection, one scraping rings (44) are with two scraper blades (45) cooperation, two scraper blades (45) are located respectively in the both sides along the width direction of storehouse body (11), scraper blades (45) are along the width direction of storehouse body (11) and scraping rings (45) sliding connection with scraper blades (46) and reset spring (46) are located down one by one in the state, the return spring (46) drives the scraping plate (45) to approach the finned tube (35).
  7. 7. The improvement equipment based on traditional freezer of claim 6, wherein fin pipe (35) all are equipped with scraper (47) along the both sides of storehouse body (11) length direction, scraper (47) are located base (34) upper end to along base (34) length direction and sliding connection with base (34), when scraper ring (44) are located fin pipe (35) upper end, scraper (47) are located one side that the upper end of base (34) kept away from waterproof motor (41), be equipped with guide bar (48) between scraper ring (44) and scraper (47), one end and scraper (47) of guide bar (48) are articulated, the other end and the scraper ring (44) one side that keeps away from waterproof motor (41) of guide bar (48) are articulated, when scraper ring (44) moves down, guide bar (48) promote scraper (47) to be close to waterproof motor (41).
  8. 8. An improvement method based on a traditional refrigeration house, which is applied to the improvement equipment based on the traditional refrigeration house as set forth in any one of claims 1 to 7, and is characterized by comprising the following steps: s1, extracting gas in a refrigerator (12) by a compressor (15), and performing high-temperature and high-pressure treatment on the gas by the compressor (15); S2, spraying water in the water tank (31) by the sprayer (33) to cool down the fin tube (35); S3, detecting the temperature in the bin body (11) by a temperature sensor (22), and starting a fan (21) when the temperature is higher than 28 ℃, wherein the fan (21) pumps out hot gas in the bin body (11); S4, when the temperature is lower than 26 ℃, stopping the fan (21); S5, cleaning the surface of the finned tube (35) by the cleaning piece (4), and cleaning the surface of the base (34) by the scraping plate (47); s6, the waste water flows into the water collection bin (18) through the water outlet (17) for recycling.

Description

Improved equipment and improved method based on traditional refrigeration house Technical Field The application relates to the technical field of refrigeration houses, in particular to an improvement device and an improvement method based on a traditional refrigeration house. Background At present, the refrigerator is an environment different from outdoor temperature or humidity and constant temperature and humidity storage equipment for foods, liquids, chemical industry, medicines, vaccines, scientific experiments and other objects by manual means, mainly comprises an outer machine and an inner machine, wherein the inner machine is arranged in the refrigerator, the outer machine is arranged in a control room, high-temperature (65-90 ℃) high-pressure (10-18 bar) dry saturated Freon steam is converted when the inner machine works, the high-temperature high-pressure dry saturated Freon steam is converted into high-pressure low-temperature supercooled Freon liquid again through an outer opportunity, and the high-pressure low-temperature supercooled Freon liquid is subjected to heat exchange again into the inner machine, so that the effect of refrigerating the refrigerator is achieved. In the prior art, power equipment such as a compressor, a condenser and the like is arranged outdoors, huge noise is generated during operation, surrounding resident complaints are caused, the environmental protection requirement is not met, the social image of an enterprise is influenced, the equipment is aged and aggravated due to the outdoor complex working condition, the failure rate is high, and the maintenance cost is high. In view of the above-mentioned related art, there is a need for a refrigeration storage apparatus that reduces the aging and failure rate of the apparatus and improves the operational stability of the refrigeration storage apparatus. Disclosure of Invention In order to improve the operation stability of refrigeration house equipment, the application provides improved equipment and an improved method based on a traditional refrigeration house. In a first aspect, the application provides an improved device based on a traditional refrigeration house, which adopts the following technical scheme: The utility model provides an improve equipment based on traditional freezer, including the equipment main part, the equipment main part includes the storehouse body and two freezers, two freezers all are located the storehouse internally, and be located the storehouse body respectively along length direction's both sides, the storehouse body all is equipped with first entry door along length direction's both sides, one side that two freezers kept away from mutually all is equipped with the second entry door, first entry door is just right with the second entry door, be equipped with circulating gas subassembly between two freezers, be equipped with a plurality of water-cooling assembly between two freezers, a plurality of water-cooling assembly are arranged along storehouse body width direction, be equipped with a plurality of compressors between two freezers, a plurality of compressors are located the both sides of water-cooling assembly along storehouse body length direction respectively, the one end and the freezer of compressor are linked together, the other end and the water-cooling assembly upper end of compressor are linked together, be equipped with the intake pipe between freezer and the water-cooling assembly, the air in the water-cooling assembly enters into the freezer inside through the intake pipe. Through adopting above-mentioned technical scheme, the storehouse body accomodates two refrigerators, when needs get into the refrigerator, operating personnel passes first entry door and second entry door respectively and gets into in the refrigerator, the refrigerator is made by sound insulation heat preservation material, the refrigerator is at the operation in-process, the gas in the refrigerator is extracted, and carry out high temperature high pressure with gas and handle, high temperature high pressure's gas is carried in the water-cooling module, the water-cooling module cools down high temperature high pressure's gas, and reflux to the refrigerator through the intake pipe in, because the water-cooling module sets up in the internal portion of storehouse, can lead to the internal temperature of storehouse to rise, the circulation gas subassembly is extracted the internal gas of storehouse, the internal portion of storehouse is gone into to the gas in the storehouse, thereby cool down the processing to the internal portion of storehouse, the equipment adopts the structure of water-cooling and air cooling combination, utilize the air convection to distribute the heat that the water-cooling module carried in the environment, the stability of refrigerator equipment operation has been improved. Optionally, the circulating gas assembly comprises a plurality of fans and a temperature sensor, wherein the tem