CN209165922U - A kind of cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying - Google Patents
A kind of cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying Download PDFInfo
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- CN209165922U CN209165922U CN201821326008.7U CN201821326008U CN209165922U CN 209165922 U CN209165922 U CN 209165922U CN 201821326008 U CN201821326008 U CN 201821326008U CN 209165922 U CN209165922 U CN 209165922U
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Abstract
Integrated constant temperature provided by the utility model, cooling and vacuum freeze-drying cryogenic system, including thermal-insulating body, thermostatic medium loop module, sample block, cryotrap module, refrigeration module, heating module and temperature control modules, thermostatic medium loop module includes being set to the intracorporal test bath of the incubator, the agitating unit bathed and be fixedly connected with insulation shell with the control that the cavity between the insulation shell of the thermal-insulating body is formed by test bath, agitating unit can make the thermostatic medium flowing being located in test bath and/or control bath by stirring, the integrated constant temperature that utility model provides, cooling and vacuum freeze-drying cryogenic system is by being connected to refrigeration module, heating module, the temperature control modules of sample block and cryotrap module, so that integrated constant temperature, cooling and vacuum freeze-drying cryogenic system temperature-controllable, it can accurately control Freeze samples temperature processed cooperates ultralow temperature cold trap and vacuum pump, realizes that sample is lyophilized under controllable temperature.
Description
Technical field
The utility model relates to temperature control technology fields, more particularly to a kind of high-precision integrated constant temperature, cooling and vacuum to freeze
Dry cryogenic system.
Background technique
In fields such as derived energy chemical, life science, light industry and foods, cryogenic thermostat, very fast cooling, vacuum freeze-drying demand are wide
It is general.Constant temperature bath carries out steady temperature test for providing heat cold controlled, temperature homogeneous constant field source, to test specimen or product
Or test, it also can be used as direct or auxiliary thermal source or cold source.Very fast cooling can make to freeze object in temperature-fall period quickly through most
Large ice crystals generate band, reduce Ice crystal size, reduce the destruction to cell, or even realize glass transition, to significantly improve thin
Viability and developmental potency after born of the same parents/tissue freezing.Vacuum freeze-drying be water-containing materials are chilled to it is below freezing, then higher
The drying means that ice is changed into steam under vacuum and is removed is highly suitable for the long-term preservation of the material of thermal sensitivity.Three kinds of skills
Art means have commercially produced product realization, the devices such as corresponding cryogenic thermostat bath, programmed cooling instrument, vacuum freeze-drying machine at present.And
Most occasions need the use in conjunction of above-mentioned several technological means, such as long-term cell preservation tissue, need successively to undergo very fast
Cooling and vacuum freeze-drying processing.In the case, urgent need integrates the integrated system of above-mentioned technological means.
On the other hand, the implementation method of existing monotechnics means also has the limitation of itself.Patent ZL96244411.1
A kind of precision low-temp. double-groove thermostatic bath is provided, dry ice or liquid nitrogen is used to provide cooling capacity, by the temperature of control refrigeration groove, then by
The refrigerant of refrigeration groove recycling to control the temperature of thermostat between refrigeration groove and thermostat, selectes medium flow field appropriate
The temperature difference of amount and two slots improves the constant-temperature precision of constant temperature bath using temperature difference compensation principle, but due to using tubule road in two slots
Between circulate, have temperature control speed it is slow, constant-temperature precision is difficult to the shortcomings that being promoted;Patent 200920214476.X provides a kind of high-precision
The cryogenic system for spending integrated constant temperature, cooling and vacuum freeze-drying realizes the high-precision control of temperature in an airtight cavity, but
It is since liquid bath medium does not flow, it is difficult to guarantee the spatially uniform in temperature field in liquid bath;201310221426.5 disclosure of patent
A kind of thermostat for electrolyte solution test, by cooling down liquid bath medium in the intracorporal spiral refrigeration coil of closing chamber,
There are problems that the spatially uniform in liquid bath temperature field.
Large-scale vacuum freeze drying equipment both domestic and external is largely using freezing, dry separation at present, i.e., freezing is using speed
Frozen storehouse carries out, then will be quick-frozen after material move in dryness storehouse that carry out vacuum sublimation dry, thus must individually mating construction
Quick freezing repository makes that cost raising is lyophilized.Patent CN101140126B proposes a kind of freeze-drying system using liquid nitrogen refrigerating, due to using
Liquid nitrogen refrigerating, in desorption process, institute's calorific requirement also needs in addition to heat, and liquid nitrogen source is restricted, using inconvenience.Patent
CN1987314B proposes a kind of integrated machine for vacuum freezing and drying using two-stage compression refrigeration, removes moisture removal by freeze-drying process,
Without desorption process, the moisture being adsorbed in material is no longer paid close attention to (about 5% moisture is with adsorption form presence), utilizes refrigeration pressure
The cold source and heat source of contracting unit, cool and heat material, and total installed capacity power can be made to substantially reduce, however the system in order to
It obtains low temperature to use with intercooled double-stage compressor, refrigerating efficiency is limited.There is sample drop in existing vacuum freeze drying technology
Warm speed is slow and constant, the control of freeze-drying process temperature is difficult to the problems such as autonomous.
To sum up, there is self-defect in existing cryogenic thermostat bath, very fast cooling instrument, vacuum freeze-drying machine.In terms of refrigerating method,
Rely on multi-compressor cascade refrigeration or liquid nitrogen refrigerating, and use warm area restricted problem low there are refrigerating efficiency;Cooling rate side
Face is difficult to be promoted to the cooling rate of large sample, is unable to satisfy vitrified cooling demand;In terms of temperature uniformity, there are perseverances
The larger limitation of warm precision;And the system of integrated constant temperature, very fast cooling and vacuum freeze-drying has not been reported, it is difficult to meet high value
The freeze-drying in situ of sample.
Utility model content
Have in view of that, it is necessary to for the cryogenic system temperature of integrated constant temperature of the existing technology, cooling and vacuum freeze-drying
Degree fluctuation is big, the slow-footed defect of temperature control, provides the low temperature of a kind of higher integrated constant temperature of temperature-controlled precision, cooling and vacuum freeze-drying
System.
To achieve the above object, the utility model adopts the following technical solutions:
On the one hand, the utility model provides the cryogenic system of a kind of integrated constant temperature, cooling and vacuum freeze-drying, comprising: protects
Incubator body, thermostatic medium loop module, sample block, cryotrap module, refrigeration module, heating module and temperature control mould
Block, in which:
The thermostatic medium loop module includes being set to the intracorporal test bath of the incubator, by test bath and institute
The agitating unit that the control that the cavity between the insulation shell of thermal-insulating body is formed is bathed and is fixedly connected with the insulation shell is stated,
The agitating unit can make the thermostatic medium flowing being located in the test bath and/or control bath by stirring;
The sample block includes the cooling test tube of storing samples, and one end of the cooling test tube is rotationally arranged at institute
It states in test bath, the other end of the cooling test tube connects the cryotrap module by pipeline;
The cryotrap module include water trap, the refrigeration coil being set in the water trap and with
The vacuum pump of the water trap connection;
The refrigeration module includes refrigeration machine and is connected to the refrigeration machine and is set in the control bath and described
The refrigeration coil of cryotrap module;
The heating module includes heater and is connected to the heater and is set to the heating dish controlled in bath
Pipe;
The temperature control modules are electrically connected at the refrigeration module, the heating module, the sample block and institute
Cryotrap module is stated, the temperature control modules include temperature control unit, very fast cooling control unit and vacuum freeze-drying control
Unit processed;
The temperature control unit controls the refrigeration module and described by detecting the temperature parameter in the test bath
Heating module work makes the refrigeration module and the heating module match refrigerating capacity and heating amount to reach set temperature;
The very fast cooling control unit controls the refrigeration module work after the test bath temperature reaches setting value
Make;
The vacuum freeze-drying control unit reaches required low temperature in test bath, controls the acceleration rotation of the cooling test tube
Turn and control the cryotrap module water trap work in -150 DEG C~-80 DEG C at a temperature of control the vacuum pump work
Make;The vacuum freeze-drying control unit is also used to control the refrigeration module and the heating module so that the test bath temperature
Step up and control the cryotrap module water trap work in -150 DEG C~-40 DEG C at a temperature of control it is described true
Empty pump work.
In some preferred embodiment, the thermal-insulating body includes the insulation shell, is covered on the insulation shell
Insulation case lid and the insulation plug that is arranged in the insulation case lid.
In some preferred embodiment, the insulation case lid can be opened or is closed.
In some preferred embodiment, the axle center of the test bath and the control bath is overlapped.
In some preferred embodiment, the agitating unit includes agitator arm, and the agitator arm is set to the survey
In examination bath.
In some preferred embodiment, the thermostatic medium in the control bath and test bath is same media, the constant temperature
Medium is gas thermostatic medium or liquid constant temperature medium.
In some preferred embodiment, the agitator arm is set in the control bath.
In some preferred embodiment, the thermostatic medium in the control bath and test bath is different medium, the constant temperature
Medium is gas thermostatic medium or liquid constant temperature medium.
In some preferred embodiment, the top of the test bath is equipped with paliform flow channel, and the thermostatic medium can
It is flowed between test bath and control bath.
In some preferred embodiment, the cryogenic system of the integrated constant temperature, cooling and vacuum freeze-drying further includes being set to
Chassis below the thermal-insulating body, one end of the agitating unit are set in the chassis.
In some preferred embodiment, the liquid constant temperature medium use boiling point be higher than 50 DEG C, Ozone Depletion Potential for
Zero working medium, the liquid constant temperature medium include isoamyl mercaptan, isohexane, methyl cyclopentane, HFE7200, ethyl cyclopentane,
HFE7100, normal propyl alcohol, amylalcohol, ethyl alcohol, nine fluorine, four hydrogen-based pyrans, HFC-4310mee or PF 5070;
The gas thermostatic medium use boiling point be lower than using temperature, Ozone Depletion Potential for zero working medium, including sky
Gas, nitrogen, argon gas, neon or helium.
In some preferred embodiment, the sample block further includes the swivel mount of the fixed cooling test tube, driving rotation
Sleeve between the motor and motor and swivel mount of pivoted frame, the sleeve outside and test tube interior connection, and pass through pipeline and connect
Logical cryotrap module.
In some preferred embodiment, the refrigeration machine includes throttling refrigeration, liquid nitrogen, dry ice refrigeration mode or semiconductor
Refrigeration.
It in some preferred embodiment, further include thermometer, the guarantor of the thermal-insulating body is fixed in described thermometer one end
Incubator lid, the other end protrude into the test bath.
On the other hand, the utility model additionally provides the cryogenic system of a kind of integrated constant temperature, cooling and vacuum freeze-drying, including
Thermal-insulating body, thermostatic medium loop module, sample block, cryotrap module, refrigeration module, heating module and temperature control mould
Block, in which:
The thermostatic medium loop module includes being set to the intracorporal test bath of the incubator, bathing side by side with the test
The circulating pump between the control bath and test bath is bathed and is set in the control of setting, and the circulating pump can make to bathe positioned at the control
Interior thermostatic medium flows into the test through lower/upper channel and bathes, and returns to the control through up/down channel and bathe;
The sample block includes the cooling test tube of storing samples, and one end of the cooling test tube is rotationally arranged at institute
It states in test bath, the other end of the cooling test tube connects the cryotrap module by pipeline;
The cryotrap module is set in the control bath, including water trap is connect with the water trap
Vacuum pump;
The refrigeration module includes refrigeration machine and is connected to the refrigeration machine and is set to the chill plate controlled in bath
Pipe;
The heating module includes heater and is connected to the heater and is set to the heating dish tested in bath
Pipe;
The temperature control modules are electrically connected at the refrigeration module, the heating module, the sample block and institute
Cryotrap module is stated, the temperature control modules include temperature control unit, very fast cooling control unit and vacuum freeze-drying control
Unit processed;
The temperature control unit controls the refrigeration module and described by detecting the temperature parameter in the test bath
Heating module work makes the refrigeration module and the heating module match refrigerating capacity and heating amount to reach set temperature;
The very fast cooling control unit controls the refrigeration module work after the test bath temperature reaches setting value
Make;
The vacuum freeze-drying control unit reaches required low temperature in test bath, controls the acceleration rotation of the cooling test tube
Turn and control the cryotrap module water trap work in -150 DEG C~-80 DEG C at a temperature of control the vacuum pump work
Make;The vacuum freeze-drying control unit is also used to control the refrigeration module and the heating module so that the test bath temperature
Step up and control the cryotrap module water trap work in -150 DEG C~-40 DEG C at a temperature of control it is described true
Empty pump work.
In some preferred embodiment, visual window is offered in the thermal-insulating body and test bath.
In some preferred embodiment, the sample block further includes the swivel mount of the fixed cooling test tube, driving rotation
Sleeve between the motor and motor and swivel mount of pivoted frame, the sleeve outside and cooling test tube interior connection, and pass through pipe
Road is connected to cryotrap module.
In some preferred embodiment, the sample block also includes sample injection port, and the sample injection port is with rubber
Packing sealing is injected sample in the cooling test tube along pipeline by the sample injection port.
It in some preferred embodiment, include heating element in the cooling test tube.
The utility model by adopting the above technical scheme the advantages of be:
On the one hand, the cryogenic system of integrated constant temperature provided by the utility model, cooling and vacuum freeze-drying, including incubator
Body, thermostatic medium loop module, sample block, cryotrap module, refrigeration module, heating module and temperature control modules, institute
Stating thermostatic medium loop module includes being set to the intracorporal test bath of the incubator, by test bath and the thermal-insulating body
Insulation shell between the control bath that is formed of cavity and the agitating unit that is fixedly connected with the insulation shell, the stirring is singly
Member can make the thermostatic medium flowing being located in the test bath and/or control bath, the integrated perseverance that utility model provides by stirring
Temperature, cooling and vacuum freeze-drying cryogenic system by be connected to the refrigeration module, the heating module, the sample block and
The temperature control modules of the cryotrap module, so that the cryogenic system temperature-controllable of integrated constant temperature, cooling and vacuum freeze-drying,
It can accurately control freezing sample temperature, cooperation ultralow temperature cold trap and vacuum pump, realization sample be lyophilized under controllable temperature.
It is designed using special structure, cooperation agitating unit can make the constant temperature being located in the test bath and/or control bath
Media flow can fast implement high accuracy temperature control;Outer setting control bath is bathed in test, the temperature that can reduce external environment is dry
It disturbs, guarantees the uniformity of spatial temperature distribution.
On the other hand, the cryogenic system of integrated constant temperature provided by the utility model, cooling and vacuum freeze-drying, due to described cold
But one end of test tube is rotationally arranged in test bath, by the high speed rotation of cooling test tube so that thermostatic medium with
Cooling invisible spectro sample comes into full contact with, and realizes very fast freezing of the sample in liquid bath pond in cooling test tube, meets vitrifying and turns
The cooling demand of change.
In addition, the cryogenic system of integrated constant temperature provided by the utility model, cooling and vacuum freeze-drying, using special structure
Design, cooperation agitating unit can make the thermostatic medium flowing being located in the test bath and/or control bath, can fast implement height
Precision temperature control;Outer setting control bath is bathed in test, the temperature interference of external environment can be reduced, guarantee the uniform of spatial temperature distribution
Property.
The cryogenic system of integrated constant temperature provided by the utility model, cooling and vacuum freeze-drying, integrate constant temperature, very fast cooling,
The cryogenic system of vacuum freeze-drying is provided simultaneously with the very fast cooling of cryogenic thermostat, sample and vacuum freeze-drying function, realizes the original of sample
Position freeze-drying.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor
Under, it can also be obtained according to these attached drawings other attached drawings.
Fig. 1 is that the structure of the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying that the utility model embodiment 1 provides is shown
It is intended to.
Fig. 2 is that the structure of the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying that the utility model embodiment 2 provides is shown
It is intended to.
Fig. 3 is that the structure of the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying that the utility model embodiment 3 provides is shown
It is intended to.
Fig. 4 is a kind of structural schematic diagram of sample injection port provided by the embodiment of the utility model.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
All other embodiment obtained, fall within the protection scope of the utility model.
Embodiment 1
Referring to Fig. 1, the cryogenic system of integrated constant temperature, cooling and the vacuum freeze-drying provided for the utility model embodiment 1
100 structural schematic diagram, comprising: thermal-insulating body 110, thermostatic medium loop module 120, sample block 130, cryotrap module
140, refrigeration module 150, heating module 160 and temperature control modules.The structure and connection of all parts described further below
Relationship.
Preferably, thermal-insulating body 110 includes the insulation shell 6, the insulation case lid 5 being covered on the insulation shell 6
And it is arranged in the insulation plug 4 in the insulation case lid 5.It is appreciated that insulation shell 6, insulation case lid 5 and insulation plug 4 are used, it can
Loss of refrigeration capacity and thermostatic medium consumption is greatly decreased.
Further, the insulation case lid 5 can be opened or is closed, it will be understood that in practical applications, cold in order to reduce
Amount loss and thermostatic medium consumption, the insulation case lid 5 can close for a long time, and only need to be opened and closed insulation plug 4.
The thermostatic medium loop module 120 includes the test bath 8 being set in the thermal-insulating body 111, by the survey
The control bath 7 and fixed with the insulation shell 6 that cavity between examination bath 8 and the insulation shell 6 of the thermal-insulating body 111 is formed
The agitating unit 13 of connection, the agitating unit 13 can make the perseverance being located in the test bath 8 and/or control bath 7 by stirring
Warm media flow.
Preferably, the cryogenic system of the integrated constant temperature, cooling and vacuum freeze-drying further includes being set to the thermal-insulating body
The chassis 14 of lower section, one end of the agitating unit 13 are set in the chassis 14.
Preferably, the axle center of the test bath 8 and the control bath 7 is overlapped.
Preferably, the agitating unit 13 includes agitator arm, and the agitator arm is set in the test bath 8.
Preferably, the top of the test bath 8 is equipped with paliform flow channel, and the thermostatic medium can be bathed in the test
It is flowed between 8 and control bath 7, to realize that thermostatic medium more preferably flows.
It is appreciated that cooperation agitating unit 13 can make to be located at described by the structure of design thermostatic medium loop module 120
Thermostatic medium flowing in test bath 8 and/or control bath 7, can fast implement high accuracy temperature control;And it is arranged outside test bath 8
Control bath 7, can reduce the temperature interference of external environment, guarantee the uniformity of spatial temperature distribution.
Preferably, the thermostatic medium in the control bath 7 and test bath 8 is same media, and the thermostatic medium is gas
Thermostatic medium or liquid constant temperature medium.
Preferably, the liquid constant temperature medium use boiling point be higher than 50 DEG C, Ozone Depletion Potential for zero working medium, it is described
Liquid constant temperature medium include isoamyl mercaptan, isohexane, methyl cyclopentane, HFE7200, ethyl cyclopentane, HFE7100, normal propyl alcohol,
Amylalcohol, ethyl alcohol, nine fluorine, four hydrogen-based pyrans, HFC-4310mee or PF 5070;The gas thermostatic medium is lower than using boiling point and is made
The working medium for being zero with temperature, Ozone Depletion Potential, including air, nitrogen, argon gas, neon or helium.
It should be pointed out that the thermal capacitance due to liquid is much larger than gas, can be interfered with environment resistant temperature and other factors;
But at low temperature, it is limited by freezing point, selectable liquid is few or blends realization eutectic reduction solid liquid phase by liquid
Temperature or use low-boiling point gas.
The sample block 130 includes the cooling test tube 9 of storing samples, and one end of the cooling test tube 9 is rotatably set
It is placed in the test bath 8, the other end of the cooling test tube 9 connects the cryotrap module 140 by pipeline.
Preferably, the sample block 130 further includes the swivel mount 3 of the fixed cooling test tube 9, driving swivel mount 3
Sleeve 2 between motor 1 and motor 1 and swivel mount 3,2 outside of sleeve and cooling 9 inside connection of test tube, and pass through pipe
Road is connected to cryotrap module 140.
It is appreciated that passing through cooling since one end of the cooling test tube 9 is rotationally arranged in the test bath 8
The high speed rotation of test tube 9 realizes that sample exists in cooling test tube so that thermostatic medium comes into full contact with the sample in cooling test tube 9
Very fast freezing in test bath 8, meets the cooling demand of glass transition.
The cryotrap module 140 includes water trap 18, the chill plate being set in the water trap 18
Pipe 19 and the vacuum pump 17 being connect with the water trap 18.
The refrigeration module 150 includes refrigeration machine 16 and is connected to the refrigeration machine 16 and is set in the control bath 7
And the refrigeration coil 10 (19) of the cryotrap module 140.
Preferably, the refrigeration machine 16 includes throttling refrigeration, liquid nitrogen, dry ice refrigeration mode or semiconductor refrigerating.
The heating module 160 includes heater 15 and is connected to the heater 15 and is set in the control bath 7
Heating coil 11.
The temperature control modules (not shown) is electrically connected at the refrigeration module 150, the heating module 160, institute
State sample block 130 and the cryotrap module 140, the temperature control modules include temperature control unit (not shown),
Very fast cooling control unit (not shown) and vacuum freeze-drying control unit (not shown).
The temperature control unit controls 150 He of refrigeration module by detecting the temperature parameter in the test bath 8
The heating module 160 works, and the refrigeration module 150 and the heating module 160 is made to match refrigerating capacity and heating amount to reach
To set temperature.
The very fast cooling control unit controls the refrigeration module 150 after the test 8 temperature of bath reach setting value
Work.
The vacuum freeze-drying control unit is divided into 2 processes;
1st process: when test bath 8 reaches required low temperature, the acceleration for controlling the cooling test tube 9 rotates, and accelerates cooling examination
The cooling effect in test bath 8 of pipe 9, while the water trap 18 for controlling cryotrap module 140 works in -150 DEG C~-80
The vacuum pump 17 is controlled at a temperature of DEG C to work.
2nd process: after the 1st process, control refrigeration module 150 and heating module 160 so that the test 8 temperature of bath by
Step raising and the water trap 18 for controlling the cryotrap module 140 control institute at a temperature of working in -150 DEG C~-40 DEG C
State the work of vacuum pump 17.
The cryogenic system of integrated constant temperature provided by the utility model, cooling and vacuum freeze-drying, by being connected to the refrigeration
Module 150, the heating module 160, the sample block 130 and the cryotrap module 140 temperature control modules, make
The cryogenic system temperature-controllable of constant temperature, cooling and vacuum freeze-drying must be integrated, can accurate control freezing sample temperature, cooperate ultralow
Warm cold-trap and vacuum pump realize that sample is lyophilized under controllable temperature.
In some preferred embodiment, the cryogenic system of integrated constant temperature provided by the utility model, cooling and vacuum freeze-drying
It further include thermometer (not shown), the insulation case lid 5 of the thermal-insulating body 110 is fixed in described thermometer one end, and the other end is stretched
Enter in the test bath 8.
The cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying that the utility model embodiment 1 provides, including incubator
Body, thermostatic medium loop module, sample block, cryotrap module, refrigeration module, heating module and temperature control modules, institute
Stating thermostatic medium loop module includes being set to the intracorporal test bath of the incubator, by test bath and the thermal-insulating body
Insulation shell between the control bath that is formed of cavity and the agitating unit that is fixedly connected with the insulation shell, the stirring is singly
Member can make the thermostatic medium flowing being located in the test bath and/or control bath, the integrated perseverance that utility model provides by stirring
The cryogenic system of temperature, cooling and vacuum freeze-drying is designed using special structure, and cooperation agitating unit can make to be located at test bath
And/or the thermostatic medium flowing in control bath, high accuracy temperature control can be fast implemented;Outer setting control bath is bathed in test, can be subtracted
The temperature interference of few external environment, guarantees the uniformity of spatial temperature distribution.
Embodiment 2
Referring to Fig. 2, the cryogenic system of integrated constant temperature, cooling and the vacuum freeze-drying provided for the utility model embodiment 2
20 structural schematic diagram, comprising: thermal-insulating body 210, thermostatic medium loop module 220, sample block 230, cryotrap module
240, refrigeration module 250, heating module 260 and temperature control modules.The structure and connection of all parts described further below
Relationship.
Preferably, thermal-insulating body 210 includes the insulation shell 6, the insulation case lid 5 being covered on the insulation shell 6
And it is arranged in the insulation plug 4 in the insulation case lid 5.It is appreciated that insulation shell 6, insulation case lid 5 and insulation plug 4 are used, it can
Loss of refrigeration capacity and thermostatic medium consumption is greatly decreased.
Further, the insulation case lid 5 can be opened or is closed, it will be understood that in practical applications, cold in order to reduce
Amount loss and thermostatic medium consumption, the insulation case lid 5 can close for a long time, and only need to be opened and closed insulation plug 4.
The thermostatic medium loop module 220 includes the test bath 8 being set in the thermal-insulating body 111, by the survey
The control bath 7 and fixed with the insulation shell 6 that cavity between examination bath 8 and the insulation shell 6 of the thermal-insulating body 111 is formed
The agitating unit 13 of connection, the agitating unit 13 can make the perseverance being located in the test bath 8 and/or control bath 7 by stirring
Warm media flow.
Preferably, the cryogenic system of the integrated constant temperature, cooling and vacuum freeze-drying further includes being set to the thermal-insulating body
The chassis 14 of lower section, one end of the agitating unit 13 are set in the chassis 14.
Preferably, the axle center of the test bath 8 and the control bath 7 is overlapped.
Preferably, the agitating unit 13 includes agitator arm, and the agitator arm is set in the control bath 7.
Preferably, the top of the test bath 8 is equipped with paliform flow channel, and the thermostatic medium can be bathed in the test
It is flowed between 8 and control bath 7, to realize that thermostatic medium more preferably flows.
It is appreciated that cooperation agitating unit 13 can make to be located at described by the structure of design thermostatic medium loop module 220
Thermostatic medium flowing in test bath 8 and/or control bath 7, can fast implement high accuracy temperature control;And it is arranged outside test bath 8
Control bath 7, can reduce the temperature interference of external environment, guarantee the uniformity of spatial temperature distribution.
Preferably, the thermostatic medium in the control bath 7 and test bath 8 is different medium, and the thermostatic medium is gas
Thermostatic medium or liquid constant temperature medium.
Preferably, the liquid constant temperature medium use boiling point be higher than 50 DEG C, Ozone Depletion Potential for zero working medium, it is described
Liquid constant temperature medium include isoamyl mercaptan, isohexane, methyl cyclopentane, HFE7200, ethyl cyclopentane, HFE7100, normal propyl alcohol,
Amylalcohol, ethyl alcohol, nine fluorine, four hydrogen-based pyrans, HFC-4310mee or PF 5070;The gas thermostatic medium is lower than using boiling point and is made
The working medium for being zero with temperature, Ozone Depletion Potential, including air, nitrogen, argon gas, neon or helium.
It should be pointed out that the thermal capacitance due to liquid is much larger than gas, can be interfered with environment resistant temperature and other factors;
But at low temperature, it is limited by freezing point, selectable liquid is few or blends realization eutectic reduction solid liquid phase by liquid
Temperature or use low-boiling point gas.
The sample block 230 includes the cooling test tube 9 of storing samples, and one end of the cooling test tube 9 is rotatably set
It is placed in the test bath 8, the other end of the cooling test tube 9 connects the cryotrap module 240 by pipeline.
Preferably, the sample block 230 further includes the swivel mount 3 of the fixed cooling test tube 9, driving swivel mount 3
Sleeve 2 between motor 1 and motor 1 and swivel mount 3,2 outside of sleeve and cooling 9 inside connection of test tube, and pass through pipe
Road is connected to cryotrap module 240.
It is appreciated that passing through cooling since one end of the cooling test tube 9 is rotationally arranged in the test bath 8
The high speed rotation of test tube 9 realizes that sample exists in cooling test tube so that thermostatic medium comes into full contact with the sample in cooling test tube 9
Very fast freezing in test bath 8, meets the cooling demand of glass transition.
The cryotrap module 140 includes water trap 18, the chill plate being set in the water trap 18
Pipe 19 and the vacuum pump 17 being connect with the water trap 18.
The refrigeration module 250 includes refrigeration machine 16 and is connected to the refrigeration machine 16 and is set in the control bath 7
And the refrigeration coil 10 (19) of the cryotrap module 240.
Preferably, the refrigeration machine 16 includes throttling refrigeration, liquid nitrogen, dry ice refrigeration mode or semiconductor refrigerating.
The heating module 260 includes heater 15 and is connected to the heater 15 and is set in the control bath 7
Heating coil 11.
The temperature control modules (not shown) is electrically connected at the refrigeration module 150, the heating module 160, institute
State sample block 130 and the cryotrap module 140, the temperature control modules include temperature control unit (not shown),
Very fast cooling control unit (not shown) and vacuum freeze-drying control unit (not shown).
The temperature control unit controls 250 He of refrigeration module by detecting the temperature parameter in the test bath 8
The heating module 260 works, and the refrigeration module 250 and the heating module 260 is made to match refrigerating capacity and heating amount to reach
To set temperature.
The very fast cooling control unit controls the refrigeration module 250 after the test 8 temperature of bath reach setting value
Work.
The vacuum freeze-drying control unit is divided into 2 processes;
1st process: when test bath 8 reaches required low temperature, the acceleration for controlling the cooling test tube 9 rotates, and accelerates cooling examination
The cooling effect in test bath 8 of pipe 9, while the water trap 18 for controlling cryotrap module 240 works in -150 DEG C~-80
The vacuum pump 17 is controlled at a temperature of DEG C to work.
2nd process: after the 1st process, control refrigeration module 250 and heating module 260 so that the test 8 temperature of bath by
Step raising and the water trap 18 for controlling the cryotrap module 240 control institute at a temperature of working in -150 DEG C~-40 DEG C
State the work of vacuum pump 17.
The cryogenic system of integrated constant temperature provided by the utility model, cooling and vacuum freeze-drying, by being connected to the refrigeration
Module 250, the heating module 260, the sample block 230 and the cryotrap module 240 temperature control modules, make
The cryogenic system temperature-controllable of constant temperature, cooling and vacuum freeze-drying must be integrated, can accurate control freezing sample temperature, cooperate ultralow
Warm cold-trap and vacuum pump realize that sample is lyophilized under controllable temperature.
In some preferred embodiment, the cryogenic system of integrated constant temperature provided by the utility model, cooling and vacuum freeze-drying
It further include thermometer (not shown), the insulation case lid 5 of the thermal-insulating body 210 is fixed in described thermometer one end, and the other end is stretched
Enter in the test bath 8.
The cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying that the utility model embodiment 2 provides, including incubator
Body, thermostatic medium loop module, sample block, cryotrap module, refrigeration module, heating module and temperature control modules, institute
Stating thermostatic medium loop module includes being set to the intracorporal test bath of the incubator, by test bath and the thermal-insulating body
Insulation shell between the control bath that is formed of cavity and the agitating unit that is fixedly connected with the insulation shell, the stirring is singly
Member can make the thermostatic medium flowing being located in the test bath and/or control bath, the integrated perseverance that utility model provides by stirring
The cryogenic system of temperature, cooling and vacuum freeze-drying is designed using special structure, and cooperation agitating unit can make to be located at test bath
And/or the thermostatic medium flowing in control bath, high accuracy temperature control can be fast implemented;Outer setting control bath is bathed in test, can be subtracted
The temperature interference of few external environment, guarantees the uniformity of spatial temperature distribution.
Embodiment 3
Referring to Fig. 3, the cryogenic system of integrated constant temperature, cooling and the vacuum freeze-drying provided for the utility model embodiment 3
Structural schematic diagram, comprising: thermal-insulating body 310, thermostatic medium loop module 320, sample block 330, cryotrap module
340, refrigeration module 350, heating module 360 and temperature control modules 370, in which:
The thermostatic medium loop module includes being set to the intracorporal test bath 107 of the incubator, bathing with the test
The 107 control baths 115 being set side by side and the circulating pump 108 being set between the control bath 115 and test bath 107, the circulation
Pump 108 can make the thermostatic medium being located in the control bath 115 flow into the test bath 107 through lower/upper channel, and through up/down
Channel returns to the control bath 115.
Preferably, visual window 105 is offered in the thermal-insulating body and test bath 107.It is appreciated that by visual
Window 105 is conducive to the situation inside observing system.
The sample block 330 includes the cooling test tube 106 of storing samples, and one end of the cooling test tube 106 is rotatable
Ground is set in the test bath 107, and the other end of the cooling test tube 106 connects the cryotrap module by pipeline
340。
Preferably, the sample block 330 further includes the swivel mount 103 of the fixed cooling test tube 106, driving swivel mount
Sleeve 101 between 103 motor 100 and motor 100 and swivel mount 103,101 outside of sleeve and cooling test tube 106
Internal connection, and cryotrap module 340 is connected to by pipeline.
Referring to Fig. 4, the structural schematic diagram of the sample injection port provided for the utility model embodiment 4, the sample mould
Block 330 also includes sample injection port, and the sample injection port is with the sealing of rubber packing 501, by the sample injection port by sample
Product inject in the cooling test tube along pipeline.
Preferably, heating element (not shown) can be contained inside the cooling test tube 106 of the sample block 330, be situated between with constant temperature
Sample temperature in the cooling test tube 106 of matter coordinated control.
It is appreciated that passing through since one end of the cooling test tube 106 is rotationally arranged in the test bath 107
The high speed rotation of cooling test tube 106 realizes cooling test tube so that thermostatic medium comes into full contact with the sample in cooling test tube 106
Very fast freezing of the sample in test bath 107, meets the cooling demand of glass transition in 106.
The cryotrap module 340 is set in control bath 115, including water trap 111 and with it is described
The vacuum pump 112 of water trap connection.
The refrigeration module 350 includes refrigeration machine 113 and is connected to the refrigeration machine 113 and is set to the control bath
Refrigeration coil 114 in 115.
The heating module 360 includes heater 110 and is connected to the heater 110 and is set to the test bath
Heating coil 109 in 107.
Preferably, the heating module 360 can be substituted with compressor air-discharging heat, and use solenoid valve control capacity
Realize that heating amount is controllable.
The temperature control modules 370 are electrically connected at the refrigeration module 350, the heating module 360, the sample
Module 330 and the cryotrap module 340, the temperature control modules 370 include temperature control unit (not shown), very fast
Cooling control unit (not shown) and vacuum freeze-drying control unit (not shown).
The temperature control unit controls the refrigeration module 350 by detecting the temperature parameter in the test bath 107
Work with the heating module 360, make the refrigeration module 350 and the heating module 360 match refrigerating capacity and heating amount with
Reach set temperature;
The very fast cooling control unit controls the refrigeration module after the test 107 temperature of bath reach setting value
350 work.
The vacuum freeze-drying control unit reaches required low temperature in test bath 107, controls the cooling test tube 106
It is controlled at a temperature of accelerating the water trap 111 for rotating and controlling the cryotrap module 340 to work in -150 DEG C~-80 DEG C
The vacuum pump 112 works;The vacuum freeze-drying control unit is also used to control the refrigeration module 350 and the heating module
360 so that 107 temperature of the test bath step up and control the work of water trap 111 of the cryotrap module 340
The vacuum pump 112 is controlled at a temperature of -150 DEG C~-40 DEG C to work.
The cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying that the utility model embodiment 3 provides, including incubator
Body, thermostatic medium loop module, sample block, cryotrap module, refrigeration module, heating module and temperature control modules, institute
Stating thermostatic medium loop module includes being set to the intracorporal test bath of the incubator, by test bath and the thermal-insulating body
Insulation shell between the control bath that is formed of cavity and the agitating unit that is fixedly connected with the insulation shell, the stirring is singly
Member can make the thermostatic medium flowing being located in the test bath and/or control bath, the integrated perseverance that utility model provides by stirring
The cryogenic system of temperature, cooling and vacuum freeze-drying is designed using special structure, and cooperation agitating unit can make to be located at test bath
And/or the thermostatic medium flowing in control bath, high accuracy temperature control can be fast implemented;Outer setting control bath is bathed in test, can be subtracted
The temperature interference of few external environment, guarantees the uniformity of spatial temperature distribution.
Certainly the cryogenic system of the integrated constant temperature of the utility model, cooling and vacuum freeze-drying can also have a variety of transformation and change
Type, it is not limited to the specific structure of above embodiment.In short, the protection scope of the utility model should include those for this
It obviously converts or substitutes and retrofit for the those of ordinary skill of field.
Claims (19)
1. the cryogenic system of a kind of integrated constant temperature, cooling and vacuum freeze-drying characterized by comprising thermal-insulating body, thermostatic medium
Loop module, sample block, cryotrap module, refrigeration module, heating module and temperature control modules, in which:
The thermostatic medium loop module includes being set to the intracorporal test bath of the incubator, by test bath and the guarantor
The agitating unit that the control that cavity between the insulation shell of incubator body is formed is bathed and is fixedly connected with the insulation shell, it is described
Agitating unit can make the thermostatic medium flowing being located in the test bath and/or control bath by stirring;
The sample block includes the cooling test tube of storing samples, and one end of the cooling test tube is rotationally arranged at the survey
In examination bath, the other end of the cooling test tube connects the cryotrap module by pipeline;
The cryotrap module include water trap, the refrigeration coil being set in the water trap and with it is described
The vacuum pump of water trap connection;
The refrigeration module includes refrigeration machine and is connected to the refrigeration machine and is set to that control bath is interior and the low temperature
The refrigeration coil of cold-trap module;
The heating module includes heater and is connected to the heater and is set to the heating coil controlled in bath;
The temperature control modules are electrically connected at the refrigeration module, the heating module, the sample block and described low
Warm cold-trap module, the temperature control modules include that temperature control unit, very fast cooling control unit and vacuum freeze-drying control are single
Member;
The temperature control unit controls the refrigeration module and the heating by detecting the temperature parameter in the test bath
Module work makes the refrigeration module and the heating module match refrigerating capacity and heating amount to reach set temperature;
The very fast cooling control unit controls the refrigeration module work after the test bath temperature reaches setting value;
The vacuum freeze-drying control unit reaches required low temperature in test bath, control the cooling test tube acceleration rotation and
Control the cryotrap module water trap work in -150 DEG C~-80 DEG C at a temperature of control the vacuum pump work;
The vacuum freeze-drying control unit be also used to control the refrigeration module and the heating module so that the test bath temperature by
Step raising and the water trap for controlling the cryotrap module control the vacuum at a temperature of working in -150 DEG C~-40 DEG C
Pump work.
2. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as described in claim 1, which is characterized in that the heat preservation
Cabinet includes the insulation shell, the insulation case lid being covered on the insulation shell and the guarantor being arranged in the insulation case lid
Wen Sai.
3. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as claimed in claim 2, which is characterized in that the heat preservation
Case lid can be opened or is closed.
4. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as described in claim 1, which is characterized in that the test
The axle center of bath and the control bath is overlapped.
5. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as claimed in claim 4, which is characterized in that the stirring
Unit includes agitator arm, and the agitator arm is set in the test bath.
6. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as claimed in claim 5, which is characterized in that the control
Thermostatic medium in bath and test bath is same media, and the thermostatic medium is gas thermostatic medium or liquid constant temperature medium.
7. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as claimed in claim 4, which is characterized in that agitator arm
It is set in the control bath.
8. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as claimed in claim 7, which is characterized in that the control
Thermostatic medium in bath and test bath is different medium, and the thermostatic medium is gas thermostatic medium or liquid constant temperature medium.
9. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as described in claim 1, which is characterized in that the test
The top of bath is equipped with paliform flow channel, and the thermostatic medium can be bathed in the test to be flowed between control bath.
10. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as described in claim 1, which is characterized in that described integrated
The cryogenic system of constant temperature, cooling and vacuum freeze-drying further includes the chassis being set to below the thermal-insulating body, the agitating unit
One end be set in the chassis.
11. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as described in claim 1 or 6 or 8, which is characterized in that liquid
Body thermostatic medium use boiling point be higher than 50 DEG C, Ozone Depletion Potential for zero working medium, liquid constant temperature medium include isoamyl mercaptan,
Isohexane, methyl cyclopentane, HFE7200, ethyl cyclopentane, HFE7100, normal propyl alcohol, amylalcohol, ethyl alcohol, nine fluorine, four hydrogen-based pyrans,
HFC-4310mee or PF 5070;
Gas thermostatic medium use boiling point be lower than using temperature, Ozone Depletion Potential for zero working medium, including air, nitrogen,
Argon gas, neon or helium.
12. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as described in claim 1, which is characterized in that the sample
Module further includes the set between the motor and motor and swivel mount of the swivel mount of the fixed cooling test tube, driving swivel mount
Cylinder, the sleeve outside and cooling test tube interior connection, and pass through pipeline and be connected to cryotrap module.
13. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as described in claim 1, which is characterized in that the system
Cold includes throttling refrigeration, liquid nitrogen, dry ice refrigeration mode or semiconductor refrigerating.
14. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as described in claim 1, which is characterized in that further include temperature
The insulation case lid of the thermal-insulating body is fixed in degree meter, described thermometer one end, and the other end protrudes into the test bath.
15. the cryogenic system of a kind of integrated constant temperature, cooling and vacuum freeze-drying, which is characterized in that including thermal-insulating body, thermostatic medium
Loop module, sample block, cryotrap module, refrigeration module, heating module and temperature control modules, in which:
The thermostatic medium loop module includes being set to the intracorporal test bath of the incubator, being set side by side with test bath
Control bath and be set to it is described control bath and test bath between circulating pump, the circulating pump can make be located at the control bathe in
Thermostatic medium flows into the test through lower/upper channel and bathes, and returns to the control through up/down channel and bathe;
The sample block includes the cooling test tube of storing samples, and one end of the cooling test tube is rotationally arranged at the survey
In examination bath, the other end of the cooling test tube connects the cryotrap module by pipeline;
The cryotrap module is set in control bath, including water trap and is connect with the water trap
Vacuum pump;
The refrigeration module includes refrigeration machine and is connected to the refrigeration machine and is set to the refrigeration coil controlled in bath;
The heating module includes heater and is connected to the heater and is set to the heating coil tested in bath;
The temperature control modules are electrically connected at the refrigeration module, the heating module, the sample block and described low
Warm cold-trap module, the temperature control modules include that temperature control unit, very fast cooling control unit and vacuum freeze-drying control are single
Member;
The temperature control unit controls the refrigeration module and the heating by detecting the temperature parameter in the test bath
Module work makes the refrigeration module and the heating module match refrigerating capacity and heating amount to reach set temperature;
The very fast cooling control unit controls the refrigeration module work after the test bath temperature reaches setting value;
The vacuum freeze-drying control unit reaches required low temperature in test bath, control the cooling test tube acceleration rotation and
Control the cryotrap module water trap work in -150 DEG C~-80 DEG C at a temperature of control the vacuum pump work;
The vacuum freeze-drying control unit be also used to control the refrigeration module and the heating module so that the test bath temperature by
Step raising and the water trap for controlling the cryotrap module control the vacuum at a temperature of working in -150 DEG C~-40 DEG C
Pump work.
16. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as claimed in claim 15, which is characterized in that the guarantor
Visual window is offered in incubator body and test bath.
17. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as claimed in claim 15, which is characterized in that the sample
Product module further includes the set between the motor and motor and swivel mount of the swivel mount of the fixed cooling test tube, driving swivel mount
Cylinder, the sleeve outside and test tube interior connection, and pass through pipeline and be connected to cryotrap module.
18. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as claimed in claim 17, which is characterized in that the sample
Product module also includes sample injection port, and the sample injection port is with the sealing of rubber packing, by the sample injection port by sample
It is injected in the cooling test tube along pipeline.
19. the cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying as claimed in claim 18, which is characterized in that described cold
It but include heating element in test tube.
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CN201821326008.7U CN209165922U (en) | 2018-08-16 | 2018-08-16 | A kind of cryogenic system of integrated constant temperature, cooling and vacuum freeze-drying |
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