CN205574668U - Refrigeration of disinfecting milk storage tank - Google Patents
Refrigeration of disinfecting milk storage tank Download PDFInfo
- Publication number
- CN205574668U CN205574668U CN201620349996.1U CN201620349996U CN205574668U CN 205574668 U CN205574668 U CN 205574668U CN 201620349996 U CN201620349996 U CN 201620349996U CN 205574668 U CN205574668 U CN 205574668U
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- tank
- heat
- absorbing device
- disinfection tank
- air heat
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- Confectionery (AREA)
- Food Preservation Except Freezing, Refrigeration, And Drying (AREA)
- Dairy Products (AREA)
Abstract
The utility model relates to a refrigeration of disinfecting milk storage tank, including sterilization tank, refrigeration jar, heating rod, one -way solenoid valve door, high temperature sensor, heat exchange device, low temperature sensor, program controller and air heat absorber, the refrigeration jar is located the sterilization tank lower part, is equipped with the intercommunicating pore between the two. This refrigeration of disinfecting milk storage tank can accomplish the pasteurizing flow of high temperature and rapid cooling through sterilization tank and refrigeration jar, and the sterilizing rate is high, safe and reliable to can through heat absorber and heat exchange device in with refrigeration process absorptive heat transmit for sterilization process, energy cyclic utilization, energy -concerving and environment -protective.
Description
Technical field
This utility model relates to domestic animal aquacultural machinery technical field, concrete, relates to a kind of sterilization refrigeration container for storing milk.
Background technology
Milk product is one of indispensable food in people's daily life, and the collection of fresh milk and storage processing are to milk
The quality impact of goods is bigger.Fresh milk needs effectively to preserve during completing to collect production and processing, fresh
Milk easily grows noxious bacteria, during causing preservation, qualitative change occurs.Pasteurization is standard of comparison at present
Method for disinfection, concrete process is that fresh milk is heated to 65 DEG C, insulation 30min after be cooled to 4 DEG C rapidly
Hereinafter, this high temperature and quenching process kill pathogenic bacteria and most of non-pathogenic bacteria.
At present, there is following defect in conventional container for storing milk: 1. have and store and fresh-keeping function, do not possess and kill
Bacterium function, or sterilization process imperfection, it is impossible to enough kill pathogenic bacteria completely;2. utilize disposable electricity
Can heat, capacity usage ratio is low.
Utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, it is provided that available pasteurization sterilizes also
The sterilization refrigeration container for storing milk of storing and fresh-keeping, heat energy recycling energy-conserving and environment-protective.
This utility model solves it and technical problem is that and take techniques below scheme to realize:
A kind of sterilization refrigeration container for storing milk, including disinfection tank, refrigerant tank, heating rod, Unidirectional solenoid valve door and air
Heat extractor, described disinfection tank is double-layer shell structure, and described heating rod is positioned at inside disinfection tank double Shell, institute
Stating Unidirectional solenoid valve door and have two, a described Unidirectional solenoid valve door is positioned at disinfection tank top, described in another
Unidirectional solenoid valve door is positioned at bottom disinfection tank, and described refrigerant tank is fixed on disinfection tank bottom, described disinfection tank and system
Cold tank junction is communicated with hole, and described intercommunicating pore interconnects mutually with the Unidirectional solenoid valve door being positioned at bottom disinfection tank
Logical, described refrigerant tank is double-layer shell structure, and described air heat-absorbing device is positioned at inside refrigerant tank double Shell, its
Feature is: described disinfection tank inner bottom part is provided with rotating shaft A, and described rotating shaft A is fixedly connected with flat board stirring paddle,
Described flat board stirring paddle top is fixed with pyrostat, and described refrigerant tank inner top is provided with rotating shaft B, described
Rotating shaft B is provided with propeller, and described rotating shaft B bottom is fixed with low-temperature sensor, described disinfection tank
It is provided with cyclelog and heat-exchange device, described cyclelog and heat-exchange device with refrigerant tank junction
Bottom is provided with thermal insulation layer, described pyrostat and low-temperature sensor and electrically connects with the input of cyclelog,
Described Unidirectional solenoid valve door, heating rod, air heat-absorbing device and heat-exchange device are electrically connected with cyclelog outfan
Connecing, described heat-exchange device and air heat-absorbing device are connected by infrared ray heat transporting pipe, described air heat-absorbing device
For square tubular structure, described air heat-absorbing device has two or more, is evenly distributed on inside refrigerant tank double Shell,
The air inlet of each described air heat-absorbing device is connected by pipeline, and the air inlet of described air heat-absorbing device is positioned at refrigerant tank
Sidewall bottom, the gas outlet of each described air heat-absorbing device is connected by pipeline, giving vent to anger of described air heat-absorbing device
Mouth is positioned at the top side wall of refrigeration.
Preferably, described refrigerant tank double Shell internal layer is waveform.
Preferably, described heating rod has two or more, is evenly distributed on inside disinfection tank double Shell.
Compared with prior art, this utility model produces and provides the benefit that: 1. by high-temperature heating and chilling
Process completes pasteurize flow process, and sterilizing rate is high, safe and reliable;2. the heat absorbed in process of refrigerastion is followed
Changing uses in heat sterilisation process, and energy realizes secondary and utilizes, and utilization rate improves and energy-conserving and environment-protective.
Accompanying drawing explanation
Below in conjunction with the accompanying drawings this utility model is further illustrated:
Fig. 1 is brief configuration schematic diagram of the present utility model;
Fig. 2 is electrical connection schematic diagram.
Wherein: 1 disinfection tank, 2 refrigerant tanks, 3 flat board stirring paddles, 4 heating rods, 5 rotating shaft A, 6 high temperature pass
Sensor, 7 Unidirectional solenoid valve doors, 8 rotating shaft B, 9 propellers, 10 low-temperature sensors, 11 programme-control
Device, 12 heat-exchange devices, 13 air heat-absorbing devices, 14 intercommunicating pores.
Detailed description of the invention
Below in conjunction with embodiment, this utility model is described further:
As depicted in figs. 1 and 2, a kind of sterilization refrigeration container for storing milk, including disinfection tank 1, refrigerant tank 2, heating
Rod 4, Unidirectional solenoid valve door 7 and air heat-absorbing device 13, described disinfection tank 1 is double-layer shell structure, described in add
Hot pin 4 is positioned at inside disinfection tank 1 double Shell, and described Unidirectional solenoid valve door 7 has two, a described list
Being positioned at disinfection tank 1 top to electromagnetic valve 7, another described Unidirectional solenoid valve door 7 is positioned at bottom disinfection tank 1,
Described refrigerant tank 2 is fixed on disinfection tank 1 bottom, described disinfection tank 1 and refrigerant tank 2 junction and is communicated with hole
14, described intercommunicating pore 14 is interconnected with the Unidirectional solenoid valve door 7 being positioned at bottom disinfection tank 1, described refrigeration
Tank 2 is double-layer shell structure, and described air heat-absorbing device 13 is positioned at inside refrigerant tank 2 double Shell, described in kill
Bacterium tank 1 inner bottom part is provided with rotating shaft A5, and described rotating shaft A5 is fixedly connected with flat board stirring paddle 3, described flat
Plate stirring paddle 3 top is fixed with pyrostat 6, and described refrigerant tank 2 inner top is provided with rotating shaft B8, institute
Stating rotating shaft B8 and be provided with propeller 9, described rotating shaft B8 bottom is fixed with low-temperature sensor 10, institute
State disinfection tank 1 and refrigerant tank 2 junction is provided with cyclelog 11 and heat-exchange device 12, described program control
The bottom of device 11 processed and heat-exchange device 12 is provided with thermal insulation layer 15, described pyrostat 6 and low temperature sensing
Device 10 is connected with the input of cyclelog 11, and described Unidirectional solenoid valve door 7, heating rod 4, air are inhaled
Hot device 13 and heat-exchange device 12 are connected with cyclelog 11 outfan, described heat-exchange device 12 and sky
Gas heat extractor 13 is connected by infrared ray heat transporting pipe, and described air heat-absorbing device 13 is square tubular structure,
Described air heat-absorbing device 13 has two or more, is evenly distributed on inside refrigerant tank 2 double Shell, each described sky
The air inlet of gas heat extractor 13 is connected by pipeline, and the air inlet of described air heat-absorbing device 13 is positioned at refrigerant tank 2
Sidewall bottom, the gas outlet of each described air heat-absorbing device 13 is connected by pipeline, described air heat-absorbing device 13
Gas outlet be positioned at the top side wall of refrigerant tank 2.
In above-mentioned sterilization refrigeration container for storing milk, it should be pointed out that described refrigerant tank 2 double Shell internal layer is
Waveform.
In above-mentioned sterilization refrigeration container for storing milk, it should be pointed out that described heating rod 4 has two or more, all
Even it is distributed in inside disinfection tank 1 double Shell.
When using this sterilization refrigeration container for storing milk, by fresh milk from the Unidirectional solenoid valve being positioned at disinfection tank 1 top
Door 7 is poured into, and cyclelog 11 cuts out two the Unidirectional solenoid valve doors 7 being positioned at disinfection tank 1 top and bottom,
Milk is now mothballed in disinfection tank 1, and cyclelog 11 opens heating rod 4 and to pyrostat 6
Set heating-up temperature 65 DEG C, milk heated, and drive flat board stirring paddle 3 to rotate by rotating shaft A5,
Uniformly milk.Pyrostat 6 measures milk actual temperature, after actual temperature reaches design temperature 65 DEG C,
Feedback data, to cyclelog 11, starts timing insulation, arrives 30 after cyclelog 11 reception information
Closing heating rod 4 after minute and unlatching is positioned at the Unidirectional solenoid valve door 7 bottom disinfection tank 1, milk has been heated
Flowing in refrigerant tank 2 by intercommunicating pore 14 after becoming pasteurize flow process, cyclelog 11 cuts out and is positioned at sterilization
Unidirectional solenoid valve door 7 bottom tank 1.After milk enters in refrigerant tank 2, rotating shaft B8 drives propeller
9 rotate milk, and low-temperature sensor 10 measures actual milk liquid temp, and set temperature value is 4 DEG C, works as actual temperature
During higher than design temperature, air heat-absorbing device 13 opened by cyclelog 11, the air heat-absorbing device 13 of square tubulose
Having bigger endotherm area, refrigerant tank 2 tank body is stainless steel, is beneficial to heat transfer, air heat-absorbing device 13
Absorb milk heat by the air of air inlet, and send heat exchange dress to by infrared ray heat transporting pipe
Putting 12, discharge gas by gas outlet, corrugated refrigerant tank 2 internal layer shell structure can expand heat-conducting area,
Heat is retransmitted to disinfection tank 1 by heat-exchange device 12, and disinfection tank 1 tank body is stainless steel, heat conduction
Coefficient is high, can reuse heat energy, energy-conserving and environment-protective, when milk actual temperature is less than design temperature 4 DEG C, and journey
Sequence controller 11 closes air heat-absorbing device 13, stops heat absorption, and milk completes process of refrigerastion.
This sterilization refrigeration container for storing milk can complete pasteurize flow process and refrigerating fresh-keeping process, by refrigerating fresh-keeping simultaneously
During heat recovery reuse in pasteurization flow process, heat recovery, energy-conserving and environment-protective.
The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all
Within spirit of the present utility model and principle, any modification, equivalent substitution and improvement etc. done, all should wrap
Within being contained in protection domain of the present utility model.
Claims (3)
1. a sterilization refrigeration container for storing milk, including disinfection tank (1), refrigerant tank (2), heating rod (4), unidirectional electromagnetism
Valve (7) and air heat-absorbing device (13), described disinfection tank (1) is double-layer shell structure, and described heating rod (4) is positioned at
Inside disinfection tank (1) double Shell, described Unidirectional solenoid valve door (7) has two, a described Unidirectional solenoid valve
Door (7) is positioned at disinfection tank (1) top, and another described Unidirectional solenoid valve door (7) is positioned at disinfection tank (1) bottom, described
Refrigerant tank (2) is fixed on disinfection tank (1) bottom, described disinfection tank (1) and refrigerant tank (2) junction and is communicated with hole
(14), described intercommunicating pore (14) and the Unidirectional solenoid valve door (7) being positioned at disinfection tank (1) bottom are interconnected, described system
Cold tank (2) is double-layer shell structure, and described air heat-absorbing device (13) is positioned at inside refrigerant tank (2) double Shell, and it is special
Levy and be: described disinfection tank (1) inner bottom part is provided with rotating shaft A (5), described rotating shaft A (5) is fixedly connected with flat board and stirs
Mixing oar (3), described flat board stirring paddle (3) top is fixed with pyrostat (6), described refrigerant tank (2) inner top
Being provided with rotating shaft B (8), described rotating shaft B (8) is provided with propeller (9), and described rotating shaft B (8) bottom is fixing to be set
There are low-temperature sensor (10), described disinfection tank (1) and refrigerant tank (2) junction to be provided with cyclelog (11) and heat is handed over
Changing device (12), the bottom of described cyclelog (11) and heat-exchange device (12) is provided with thermal insulation layer (15), described
Pyrostat (6) and low-temperature sensor (10) are connected with the input of cyclelog (11), described unidirectional electromagnetism
Valve (7), heating rod (4), air heat-absorbing device (13) and heat-exchange device (12) and cyclelog (11) outfan
Connecting, described heat-exchange device (12) and air heat-absorbing device (13) are connected by infrared ray heat transporting pipe, described
Air heat-absorbing device (13) is square tubular structure, and described air heat-absorbing device (13) has two or more, is evenly distributed on
Inside refrigerant tank (2) double Shell, the air inlet of each described air heat-absorbing device (13) is connected by pipeline, described sky
The air inlet of gas heat extractor (13) is positioned at the sidewall bottom of refrigerant tank (2), giving vent to anger of each described air heat-absorbing device (13)
Mouth is connected by pipeline, and the gas outlet of described air heat-absorbing device (13) is positioned at the top side wall of refrigerant tank (2).
Sterilization refrigeration container for storing milk the most according to claim 1, is characterized in that: described refrigerant tank (2) is double-deck
Housing internal layer is waveform.
Sterilization refrigeration container for storing milk the most according to claim 1, is characterized in that: described heating rod (4) has two
More than individual, it is evenly distributed on inside disinfection tank (1) double Shell.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620349996.1U CN205574668U (en) | 2016-04-21 | 2016-04-21 | Refrigeration of disinfecting milk storage tank |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620349996.1U CN205574668U (en) | 2016-04-21 | 2016-04-21 | Refrigeration of disinfecting milk storage tank |
Publications (1)
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CN205574668U true CN205574668U (en) | 2016-09-14 |
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CN201620349996.1U Expired - Fee Related CN205574668U (en) | 2016-04-21 | 2016-04-21 | Refrigeration of disinfecting milk storage tank |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111469333A (en) * | 2020-05-11 | 2020-07-31 | 辽宁金铠厦科技有限公司 | Constant-temperature silo for manufacturing polyurethane foaming particles |
-
2016
- 2016-04-21 CN CN201620349996.1U patent/CN205574668U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111469333A (en) * | 2020-05-11 | 2020-07-31 | 辽宁金铠厦科技有限公司 | Constant-temperature silo for manufacturing polyurethane foaming particles |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160914 Termination date: 20180421 |